www.sriyadithatextile.com http://www.sriyadithatextile.com Thu, 16 Jan 2014 05:15:51 GMT FeedCreator 1.8.0-dev (info@mypapit.net) elite-compact-yarn-production http://www.sriyadithatextile.com//quality/elite-compact-yarn-production.html Sriyadithatextile - elite-compact-yarn-production pnowadays-most-of-the-spinning-units-having-elite-compact-which-is-done-for-modernisation-and-upgradation-needs-at-the-same-time-its-also-indeed-that-the-maintenance-and-monitoring-should-be-done-very-perfectly-to-achieve-the-good-quality-yarn-productsp pits-listed-below-for-the-guidance-for-spinning-technicians-p pandnbspp table-width-715- tbody tr td-width-43-snotd td-width-241-activitytd td-width-159-frequencytd td-width-272-remarkstd tr tr td-width-43-1td td-width-241-elitube-guide-rod-checkingtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-2td td-width-241-cots-groovingtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-3td td-width-241-lattice-apron-waste-checkingtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-4td td-width-241-top-arm-pressure-checking-on-dial-gaugetd td-width-159-dailytd td-width-272-250-kg-cm2td tr tr td-width-43-5td td-width-241-drafting-zone-cleaningtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-6td td-width-241-roving-running-over-pintd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-7td td-width-241-ohtc-functiontd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-8td td-width-241-bearing-lh-grease-checkingtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-9td td-width-241-bearing-rh-grease-checkingtd td-width-159-dailytd td-width-272-andnbsptd tr tr td-width-43-10td td-width-241-lattice-apron-damagestd td-width-159-every-elitube-cleaningtd td-width-272-separate-record-should-be-maintained-each-machinetd tr tr td-width-43-11td td-width-241-top-arm-centering-checkingtd td-width-159-after-every-cleaningtd td-width-272-andnbsptd tr tr td-width-43-12td td-width-241-roving-guide-centeringtd td-width-159-after-every-cleaningtd td-width-272-andnbsptd tr tr td-width-43-13td td-width-241-top-roller-settingtd td-width-159-after-every-cleaningtd td-width-272-51-x-58-for-p3-1-top-arm-50-x-58-for-hpgx-3010td tr tr td-width-43-14td td-width-241-traverse-length-checking-3-mmandnbsptd td-width-159-after-every-cleaningtd td-width-272-traverse-length-3-mmtd tr tr td-width-43-15td td-width-241-suction-pressure-checkingtd td-width-159-after-every-cleaningtd td-width-272-28-to-30-mbtd tr tr td-width-43-16td td-width-241-pneumafil-suction-pressuretd td-width-159-after-every-cleaningtd td-width-272-12-mb-fan-side-6-mb-opposite-sidetd tr tr td-width-43-17td td-width-241-automatic-lubrication-checking-for-gearstd td-width-159-after-every-cleaningtd td-width-272-andnbsptd tr tr td-width-43-18td td-width-241-tension-draft-random-checking-by-qadtd td-width-159-after-every-buffingtd td-width-272-separate-record-should-be-maintained-each-machinetd tr tr td-width-43-19td td-width-241-intermediate-gear-checkingtd td-width-159-during-every-buffingtd td-width-272-andnbsptd tr tr td-width-43-20td td-width-241-ring-centering-checking-by-stroboscope-or-by-torch-lighttd td-width-159-once-machine-weektd td-width-272-must-to-identify-improper-ring-centering-higher-hairiness-is-the-indicationtd tr tr td-width-43-21td td-width-241-suction-tube-cleaning-by-using-only-knitted-clothtd td-width-159-once-in-three-months-normal-once-in-a-month-during-summerandnbsptd td-width-272-should-use-only-knitted-cloth-for-cleaningtd tr tr td-width-43-22td td-width-241-top-arm-load-checking-apex-gaugetd td-width-159-once-in-3-monthstd td-width-272-andnbsptd tr tr td-width-43-23td td-width-241-hpgx-3010-height-gauge-checkingtd td-width-159-once-in-6-monthstd td-width-272-andnbsptd tr tr td-width-43-24td td-width-241-insert-checkingtd td-width-159-once-in-6-monthstd td-width-272-andnbsptd tr tr td-width-43-25td td-width-241-frame-wise-cop-rejectionandnbsptd td-width-159-2-machines-per-weektd td-width-272-overall-cop-rejection-andlt2-quality-rejection-andlt05td tr tr td-width-43-26td td-width-241-spindle-wise-cop-rejection-analysistd td-width-159-1-machine-per-monthtd td-width-272-andnbsptd tr tr td-width-43-27td td-width-241-fron-top-roller-greasingtd td-width-159-once-in-three-yearstd td-width-272-using-kluber-please-refer-manualtd tr tbody table pandnbspp table-width-715- tbody tr td-colspan-3-width-443-apart-from-the-above-please-ensure-the-followingtd td-width-272-andnbsptd tr tr td-width-43-1td td-colspan-3-please-ensure-homogenous-mixing-the-micronaire-value-between-lots-should-not-excess-02td tr tr td-width-43-2td td-colspan-3-fibre-strength-gtex-between-the-lots-should-not-exceed-3-gtextd tr tr td-width-43-3td tdcomber-u-below-35td tdandnbsptd tdandnbsptd tr tr td-width-43-4td tddraw-frame-u-below-2td tdandnbsptd tdandnbsptd tr tr td-width-43-5td tdsimplex-u-below-4td tdandnbsptd tdandnbsptd tr tr td-width-43-6td td pcomber-sfc-w-content-below-6p pmost-important-to-reduce-the-weak-places-in-the-yarnp td td-colspan-2- pandnbspp pandnbspp td tr tr td-width-43-7td td-colspan-2-simplex-breaks-below-1100-spindle-hrtd tdandnbsptd tr tr td-width-43-8td td-colspan-2-spinning-breaks-below-6100-spindle-hrtd tdandnbsptd tr tr td-width-43-9td td-colspan-2-autoconer-cuts-100-km-below-80100-kmtd tdandnbsptd tr tr td-width-43-10td td-colspan-2-total-cop-rejection-should-not-exceed-1-of-the-total-cop-fedtd tdandnbsptd tr tr td-width-43-11td td-colspan-3-quality-rejection-cops-at-autoconer-should-not-exceed-05-of-total-cop-fedtd tr tr td-width-43-12td td-colspan-3-rejected-quality-alarm-cops-should-be-treated-as-second-quality-and-should-not-be-mixed-with-regular-productiontd tr tr td-width-43-13td td-colspan-2-rewinding-breaks-should-be-less-than-05-breaks-lakh-metretd tdandnbsptd tr tr td-width-43-14td td-colspan-2-objectionable-faults-at-autconer-should-be-zerotd tdandnbsptd tr tr td-width-43-15td td-colspan-2-minimum-rkm-should-not-be-less-than-15-irrespective-of-countstd tdandnbsptd tr tr td-width-43-16td td-colspan-2-weak-places-at-118-gms-should-be-less-than-15-in-both-e-and-ftd tdandnbsptd tr tr td-width-43-17td td-colspan-3-width-672-contamination-and-foreign-matters-should-have-been-removed-effectivelty-at-blow-room-and-autoconertd tr tr td-width-43-18td td-colspan-3-width-672-package-defects-breaks-should-not-exceed-morethan-02-million-metertd tr tbody table]]> 2017 04 01 18:56 http://www.sriyadithatextile.com/ mag-unevenness-testing-instrument http://www.sriyadithatextile.com//quality/mag-unevenness-testing-instrument.html Sriyadithatextile - mag-unevenness-testing-instrument pstrongmag-was-established-in-1991-with-an-insight-to-design-and-develop-testing-instruments-for-textile-industry-over-the-years-the-company-has-grown-its-product-portfolio-and-aligned-its-offering-to-the-changing-industry-requirements-and-technology-advancements-today-mag-solvics-private-limited-is-a-multi-product-multi-market-enterprise-that-provides-total-testing-solutions-and-online-monitoring-solutions-for-all-the-segments-of-textile-industry-viz-ginning-spinning-weaving-knitting-processing-apparels-and-garments-all-over-the-world-with-installations-exceeding-8000-units-br-br-the-company-is-built-on-a-strong-foundation-of-innovation-and-technological-excellence-continuous-focus-on-research-and-development-strategic-partnerships-and-a-customer-centric-approach-have-marked-mags-25-year-journey-in-the-textile-industry-the-company-offers-a-strong-sales-and-service-network-powered-by-well-trained-and-highly-qualified-technical-expertsstrongp pandnbspp pstrongnow-in-textile-industries-as-a-sense-of-economical-reason-more-customers-in-north-india-using-mag-unevenness-tester-and-they-are-giving-statement-that-the-results-are-almost-comparable-with-uster-results-toostrongp pandnbspp pstrongmag-u-expert-2010-and-now-in-advance-as-uh-expert-2012strongp h5-class-widget-title-featuresh5 div-class-entry-content- pandnbspp ul listrongmeasures-evenness-properties-of-yarn-roving-and-sliverstrongli listronglatest-technology-ensures-the-detection-of-imperfections-in-a-precise-mannerstrongli listronguser-friendly-operation-with-perfect-graphical-and-numerical-resultsandnbspandnbspstrongli listrongin-built-self-testing-systemstrongli listrongtesting-speed-up-to-400-mminstrongli listrongautomatic-selection-of-slot-as-per-the-count-selectedstrongli listrongmulti-diagram-windows-for-instant-test-comparisonstrongli listrongall-visualizing-data-in-real-time-no-need-to-wait-till-test-completionstrongli listrongflexible-and-consolidated-report-optionstrongli ul pandnbspp pstrongmag-solvics-private-limitedbr-br-sfno1495dynamic-centerbr-solavampalayampost-kinathukadavubr-coimbatore-642-109-indiabr-strongmobilestrongandnbsp-91-7667-8448-03-br-strongtelstrongandnbsp-91-4259-2427-00-br-strongfaxstrongandnbsp-91-4259-2427-11-br-stronge-mailstrongandnbspa-href-mailto-marketingmagsolvicscom-marketingmagsolvicscom-astrongp div]]> 2016 11 08 17:14 http://www.sriyadithatextile.com/ basic-concept-of-knitting http://www.sriyadithatextile.com//quality/basic-concept-of-knitting.html Sriyadithatextile - basic-concept-of-knitting pstrongknittingstrong-is-considered-to-be-the-second-most-frequently-used-method-of-fabric-construction-after-weaving-it-is-one-of-the-several-ways-to-turn-thread-or-yarn-into-cloth-it-is-similar-to-crochet-in-the-sense-that-it-consists-of-loops-pulled-through-other-loops-in-other-words-knitting-is-the-process-of-construction-of-a-fabric-made-of-interlocking-loops-of-yarn-by-means-of-needles-the-loops-may-be-either-loosely-or-closely-constructed-according-to-the-purpose-of-the-fabric-the-loops-or-stitches-are-interlocked-using-a-needle-which-holds-the-existing-loop-and-a-new-loop-is-formed-in-front-of-the-old-loop-the-old-loop-is-then-brought-over-the-new-loop-to-form-the-knitted-fabric-knitting-is-different-from-weaving-in-the-sense-that-a-single-piece-of-yarn-can-be-used-to-create-fabric-the-knitted-fabric-consists-of-horizontal-rows-known-as-courses-and-vertical-columns-of-loops-known-as-walesp pthere-are-two-types-of-knitting-namelyp ol liweft-knittingli liwarp-knittingli ol divbr- divstrongproduction-flowchart-of-knitting-section-strongbr-br-sample-fabricbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-design-analysisbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-machine-selectionbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-setting-the-machine-for-the-specific-designbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-sample-knittingbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-sample-approvalbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-bulk-productionbr-andnbsp-andnbsp-andnbsp-andnbspanddarrbr-stronggrey-fabric-inspectionstrongdiv divandnbspdiv divandnbspdiv divandnbspdiv divandnbspdiv div]]> 2015 08 29 18:34 http://www.sriyadithatextile.com/ basic-concept-of-weaving http://www.sriyadithatextile.com//quality/basic-concept-of-weaving.html Sriyadithatextile - basic-concept-of-weaving pstrongloomstrong-p pan-apparatus-for-making-fabric-by-weaving-yarn-or-thread-astrongandnbsploomstrong-is-a-device-used-to-weave-cloth-the-basic-purpose-of-any-loom-is-to-hold-the-warp-threads-under-tension-to-facilitate-the-interweaving-of-the-weft-threads-the-precise-shape-of-the-loom-and-its-mechanics-may-vary-but-the-basic-function-is-the-samep div divandnbspdiv div divstrongshuttle-loom-andnbspstrongdiv divthe-shuttle-loom-is-the-oldest-type-of-weaving-loom-which-uses-a-shuttle-which-contains-a-bobbin-of-filling-yarn-that-appears-through-a-hole-situated-in-the-side-the-shuttle-is-batted-across-the-loom-and-during-this-process-it-leaves-a-trail-of-the-filling-at-the-rate-of-about-110-to-225-picks-per-minute-ppm-although-very-effective-and-versatile-the-shuttle-looms-are-slow-and-noisy-also-the-shuttle-sometimes-leads-to-abrasion-on-the-warp-yarns-and-at-other-times-causes-thread-breaks-as-a-result-the-machine-has-to-be-stopped-for-tying-the-broken-yarnsbr-br-ustrongclassification-of-modern-loom-strongubr-strongshuttle-less-loom-andnbspstrongdiv divmany-kinds-of-shuttle-less-looms-are-used-for-weaving-such-as-projectile-looms-rapier-looms-water-jet-looms-and-air-jet-loomsbr-br-strongprojectile-loom-andnbspstrongdiv divit-is-sometimes-called-missile-loom-as-the-picking-action-is-done-by-a-series-of-small-bullet-like-projectiles-which-hold-the-weft-yarn-and-carry-it-through-the-shed-and-then-return-empty-all-the-filling-yarns-are-inserted-from-the-same-side-of-the-loom-a-special-tucking-device-holds-the-ends-of-the-wefts-in-place-at-the-edge-of-the-cloth-to-form-the-selvage-this-loom-needs-smooth-uniform-yarn-which-is-properly-sized-in-order-to-reduce-friction-projectile-loom-can-produce-up-to-300-ppm-and-is-less-noisier-then-the-shuttle-loombr-br-strongrapier-loom-andnbspstrongdiv divrapier-loomandnbspcomes-in-many-types-early-models-of-it-use-one-long-rapier-device-that-travels-along-the-width-of-the-loom-to-carry-the-weft-from-one-side-to-the-other-another-type-of-rapier-loom-has-two-rapiers-one-on-each-side-of-the-loom-they-may-be-rigid-flexible-or-telescopic-one-rapier-feeds-the-weft-halfway-through-the-sheds-of-warp-yarns-to-the-arm-on-the-other-side-which-reaches-in-and-carries-it-across-the-rest-of-the-way-rapier-looms-are-very-efficient-and-their-speed-ranges-from-200-to-260-ppm-these-looms-can-manufacture-a-variety-of-fabrics-ranging-from-muslin-fabric-to-drapery-fabrics-and-even-upholstery-fabricsbr-br-strongwater-jet-loom-andnbspstrongdiv divin-it-a-pre-measured-length-of-weft-yarn-is-carried-across-the-loom-by-a-jet-of-water-these-looms-are-very-fast-with-speeds-up-to-600-ppm-and-very-low-noise-also-they-dont-place-much-tension-on-the-filling-yarn-as-the-pick-is-tension-less-very-high-quality-of-warp-yarns-are-needed-for-efficient-operation-also-only-yarns-that-are-not-readily-absorbent-can-be-used-to-make-fabrics-on-water-jet-looms-such-as-filament-yarn-of-acetate-nylon-polyester-and-glass-however-it-can-produce-very-high-quality-fabrics-having-great-appearance-and-feelbr-br-strongair-jet-looms-andnbspstrongdiv divin-the-strongair-jet-weaving-loomsstrong-a-jet-of-air-is-used-to-propel-the-weft-yarn-through-the-shed-at-speeds-of-up-to-600-ppm-uniform-weft-yarns-are-needed-to-make-fabrics-on-this-loom-also-heavier-yarns-are-suitable-for-air-jet-looms-as-the-lighter-fabrics-are-very-difficult-to-control-through-shed-however-too-heavy-yarns-also-cant-be-carried-across-the-loom-by-air-jet-in-spite-of-these-limitations-air-jet-loom-can-produce-a-wide-variety-of-fabricsbr-br-strongcircular-looms-andnbspstrongdiv divthese-looms-are-particularly-used-for-making-tubular-fabrics-rather-than-flat-fabrics-a-shuttle-device-in-it-circulates-the-weft-in-a-shed-formed-around-the-machine-a-circular-loom-is-primarily-used-for-bagging-materialdiv br-br-div div]]> 2015 08 29 17:40 http://www.sriyadithatextile.com/ basic-formulas-used-in-spinning-process http://www.sriyadithatextile.com//quality/basic-formulas-used-in-spinning-process.html Sriyadithatextile - basic-formulas-used-in-spinning-process h2basic-formulas-used-in-the-spinning-processh2 h2andnbsph2 h2common-formulash2 pandnbspp table-class-table-style-height-196px-width-579- tbody tr tdgrams-per-metertd td05905-netd tr tr tdgrams-per-yardtd td054-netd tr tr tdtextd tdden-x-11-1000nm-mic254td tr tr tdnetd tdnm1693td tr tr tddrafttd tdfeed-weight-in-gm-delivery-weight-in-gmtd tr tr tddrafttd tdtex-feedtexdeliverytd tr tr tddrafttd tddelivery-roll-surface-speedfeed-roll-surface-speedtd tr tr tdandnbsptd tdandnbsptd tr tbody table h2andnbsph2 h2-id-835-cardingh2 pandnbspp table-class-table- tbody tr tdproduction-in-kgs-hrtd td-l-x-10936-x-60-x-effy-hank-ne-x-36-x-840-x-22045 peml-delivery-speed-in-mminbr-effy-efficiency-br-ne-english-count-number-of-840-yards-in-one-poundbr-840-constant-br-22045-to-convert-from-lbs-to-kilogramsemp td tr tr tdproduction-in-kgs-hrtd tdl-x-ktex-x-60-x-effy-1000- peml-delivery-speed-in-mminbr-ktex-sliver-count-in-ktex-kilotexbr-effy-efficiencybr-1000-to-convert-to-kilograms-from-gramsemp td tr tr tdproduction-in-kgs-8-hrstd td02836-x-l-x-effy-ne peml-delivery-speed-in-mminbr-effy-efficiencybr-ne-english-countemp td tr tr tdproduction-8-hrstd tdhank-x-nd-ne-x-22045 pemhank-no-of-hank-840-yardsdelivered-by-the-machinebr-nd-no-of-deliveriesbr-ne-hank-of-the-materialemp td tr tr tdtotal-draft-in-cardtd tdfeed-weight-in-gm-sliver-weight-in-gmtd tr tbody table pandnbspp h2-id-836-drawframeh2 pandnbspp table-class-table- tbody tr tdbreak-drafttd tdsurface-speed-of-2nd-roller-surface-speed-of-back-rollertd tr tr tdmain-drafttd tdsurface-speed-of-1st-roller-surface-speed-of-2nd-middle-rollertd tr tr tdtotal-drafttd tdsurface-speed-of-delivery-roller-surface-of-feed-rollertd tr tr tdproduction-in-kgs-8-hrstd td02836-x-l-x-effy-x-nd-ne peml-delivery-speed-in-mminbr-effy-efficiencybr-ne-english-countbr-nd-no-of-delvieriesemp td tr tr tdproduction-in-kgs-hrtd tdfrd-x-frrpm-x-314-x-60-x-effy-x-nd-ne-x-840-x-36-x-22045 pemfrd-front-roller-dia-in-inchesbr-frrpm-front-roller-rpmbr-effy-efficiencybr-ne-sliver-hankbr-nd-number-of-deliveriesemp td tr tbody table pandnbspp div-class-clearfix- h2-id-837-speedframe-and-ringframeh2 pandnbspp table-class-table- tbody tr tdtwist-inch-tpitd tdspindle-speed-frs pemfrs-front-roller-surface-speed-in-inchesmiemp td tr tr tdfrs-frrpm-x-314-x-frdtd tdfrs-front-roller-surface-speed pemfrd-front-roller-diameteemp td tr tr tdtpitd tdtm-x-sqrtcount-or-hank pemtm-twist-multiplierbr-sqrt-square-rootemp td tr tr tdproduction-in-kgs-8-hrstd td72-x-ss-x-effy-tpi-x-ne-x-1000 pemss-spindle-speedemp td tr tr tdspindle-speedtd tdmmin-x-tpi-x-3937td tr tr tdhank-deliveredtd tdspindle-speed-tpi-x-6289td tr tr tdring-traveller-speed-in-msectd tdspindle-speed-x-ring-dia-in-mm-x-314-60-x-1000td tr tbody table pandnbspp div div-class-clearfix- h2-id-838-windingh2 pandnbspp table-class-table- tbody tr tdproduction-in-kgs-8-hrstd td02836-x-l-x-effy-x-nd-ne peml-delivery-speed-in-mminbr-effy-efficiencybr-ne-english-countbr-nd-no-of-delvieriesemp td tr tr tdproduction-in-kgs-hrtd td-l-x-10936-x-60-x-effy-hank-ne-x-36-x-840-x-22045 peml-delivery-speed-in-mminbr-effy-efficiency-br-ne-english-count-number-of-840-yards-in-one-poundbr-840-constant-br-22045-to-convert-from-lbs-to-kilogramsemp td tr tbody table div]]> 2015 08 29 15:56 http://www.sriyadithatextile.com/ rkm-single-yarn-strength-csp http://www.sriyadithatextile.com//quality/yarn-strength-calculations.html Sriyadithatextile - rkm-single-yarn-strength-csp pstrongrkm-strongp pspan-style-font-family-verdana-font-size-small-this-can-be-expressed-by-the-andldquolength-of-yarn-in-kmandrdquo-at-which-yarn-will-break-of-its-own-weightandrdquo-this-is-equivalent-to-breaking-load-in-gtexspanp pspan-style-font-family-verdana-font-size-small-rkm-is-the-short-expression-for-andldquoreisskilometerandrdquo-andndash-andldquobreaking-kilometerandrdquo-which-is-an-unit-out-of-date-spanp pspan-style-font-family-verdana-font-size-small-br-eg-a-cotton-yarn-with-15-rkm-means-it-would-break-of-its-own-weight-if-you-wind-off-15-km-of-the-yarn-and-hang-it-up-in-15km-spanp pspan-style-font-family-verdana-font-size-small-br-nowadays-it-is-common-practice-to-use-the-unit-centi-newton-per-tex-cntex-or-gram-force-per-tex-gftex-rkm-and-cntex-or-gftex-are-practically-the-same-a-slight-difference-would-be-therespanp pstrongspan-style-font-family-verdana-font-size-small-single-yarn-strength-andnbspbreaking-force-spanstrongp pthis-is-the-force-required-to-break-a-strand-of-single-yarn-it-is-expressing-centi-newton-cnandnbspp pandnbspp pstrongspan-style-font-family-verdana-font-size-small-strength-tenacity-spanstrongp pspan-style-font-size-small-the-tensile-strength-expressed-as-force-per-unit-liner-density-is-called-tenacity-this-is-normally-expressed-as-gram-force-per-tex-gftexspanp prkm-resistance-in-km-of-yarn-breaking-strength-of-yarn-in-gramstex-value-measured-using-tensorapid-or-dynamatp pcsp-the-bundle-strength-can-be-predicted-using-single-yarn-strength-and-vice-versap pandnbspp divstrongunit-of-rkm-gmstexstrongdiv divstrongandnbspstrongdiv divstrongandnbspstrongdiv divstrongrkm-andnbsp-andnbspsingle-yarn-strength-span-style-color-0000ff-grams-forcetexspan-span-style-color-0000ff-texspan-countstrongdiv divstrongandnbspstrongdiv divstrongandnbsp-andnbsp-andnbsp-andnbsp-andnbsp-single-yarn-strength-span-style-color-0000ff-gramstexspan-5905-span-style-color-cc0000-nespan-countstrongdiv divstrongandnbspstrongdiv divstrongandnbsp-andnbspandnbspstrongdiv divstrongandnbsp-andnbsp-andnbsp-andnbsp-andnbsp-single-yarn-strength-span-style-color-cc0000-cnspan-x-102-span-style-color-0000ff-texspan-countstrongdiv divstrongandnbspstrongdiv divstrongandnbsp-andnbsp-andnbsp-andnbsp-andnbsp-single-yarn-strength-span-style-color-cc0000-cnspan-x-102-5905-span-style-color-ff0000-nespan-countstrongdiv divstrongandnbspstrongdiv divstrongalso-breaking-strength-in-grams-of-tensorapid-instrument-087-x-strength-in-grams-from-tensojetstrongdiv divandnbspdiv divstrongapproximate-rkm-andnbsp-andnbsp7-x-lea-csp-1000strongdiv divstrongandnbspstrongdiv divandnbspdiv pandnbspp]]> 2015 07 31 21:10 http://www.sriyadithatextile.com/ ssssssss http://www.sriyadithatextile.com//quality/weaving-preparation-for-warping.html Sriyadithatextile - ssssssss sss]]> 2015 05 14 13:04 http://www.sriyadithatextile.com/ opening-cleaning-parallelisation-activities-for-fibres http://www.sriyadithatextile.com//quality/carding-technological-points.html Sriyadithatextile - opening-cleaning-parallelisation-activities-for-fibres pstrongthe-purpose-of-cardingstrong-p p1-to-open-the-flocks-into-individual-fibresbr-2-cleaning-or-elimination-of-impuritiesbr-3-reduction-of-nepsbr-4-elimination-of-dustbr-5-elimination-of-short-fibresbr-6-fibre-blendingbr-7-fibre-orientation-or-alignmentbr-8-sliver-formationp pstrongtechnological-points-in-cardingstrongp pthere-are-two-types-of-feeding-to-the-cardsbr-1-feeding-material-in-the-form-of-scutcher-lapbr-2-flock-feed-system-flocks-are-transported-pneumaticallyp pandbull-lapfeedingbr-1-linear-density-of-the-lap-is-very-good-and-it-is-easier-to-maintainuniformitybr-2-the-whole-installation-is-very-flexiblebr-3-deviations-in-card-output-will-be-nil-as-laps-can-be-rejectedbr-4-autolevellers-are-not-required-hence-investment-cost-and-maintenace-costbr-is-lessbr-5-transportation-of-lap-needs-more-manual-efforts-more-labourbr-6-lap-run-out-is-an-additional-source-of-fault-as-it-should-be-replaced-by-abr-new-lapbr-7-more-good-fibre-loss-during-lap-changebr-8-more-load-on-the-taker-in-as-laps-are-heavily-compressedp pandbull-flock-feedingbr-1-high-performance-in-carding-due-to-high-degree-of-openness-of-feed-webbr-2-labour-requirement-is-less-due-to-no-lap-transportaion-and-lap-change-inbr-cardsbr-3-flock-feeding-is-the-only-solution-for-high-prouduction-cardsbr-4-linear-density-of-the-web-fed-to-the-card-is-not-as-good-as-lapbr-5-installation-is-not-felxiblebr-6-autoleveller-is-a-must-hence-investment-cost-and-maintenance-cost-isbr-morep pandbull-type-of-flock-feedchute-feedbr-1-there-are-two-basic-concepts-of-flock-feedbr-andnbsp-andnbsp-andnbsp-one-piece-chute-without-an-opening-devicebr-andnbsp-andnbsp-andnbsp-two-piece-chute-with-an-opening-systembr-2-one-piece-chute-is-simple-economical-and-requires-little-maintenancebr-3-two-piece-chute-is-complex-expensive-but-delivers-a-uniform-battbr-4-one-piece-chut-is-a-closed-system-ieexcess-flock-returns-to-thebr-distrbutor-if-too-much-material-is-present-neps-can-be-increasedbr-5-one-piece-chute-is-not-flexible-to-run-different-mixingsbr-6-layout-restrictions-are-more-with-one-piece-chutep pandbull-a-feeding-device-is-a-must-to-feed-the-web-to-the-taker-in-region-and-it-shouldbr-perform-the-following-tasksbr-1-to-clamp-the-batt-securely-throughout-its-widthbr-2-to-grip-the-fibres-tightly-without-slippage-during-the-action-of-taker-inbr-3-to-present-the-fibres-in-such-a-manner-that-opening-can-be-carried-outbr-gentlyp pandbull-the-divertor-nose-sharp-or-round-and-the-length-of-the-nose-guide-surfacebr-have-a-significant-influence-on-quality-and-quantity-of-waste-removed-shart-nosebr-divertor-avoids-fibre-slippage-but-the-opening-action-is-not-gentle-if-the-length-ofbr-the-guide-surface-is-too-short-the-fibres-can-escape-the-action-of-the-taker-inbr-they-are-scraped-off-by-the-mote-knives-and-are-lost-in-the-waste-receiverbr-andbull-feed-roller-clothed-with-sawtooth-is-always-better-because-it-gives-good-battbr-retention-thus-the-opening-effect-of-the-taker-in-is-more-as-it-is-in-combingbr-andbull-rieter-has-devloped-a-unidirectional-feed-system-where-the-two-feedbr-devicesfeed-roller-and-feed-plate-are-oppositely-arranged-when-compared-withbr-the-conventional-system-ie-the-cylinder-is-located-below-and-the-plate-isbr-pressed-against-the-cylinder-by-spring-force-owing-to-the-direction-of-feed-rollerbr-the-fibre-batt-runs-downwards-without-diversion-directly-into-the-teeth-of-the-takerinbr-licker-in-which-results-in-gentle-fibre-treatment-this-helps-to-reduce-faults-inbr-the-yarnbr-andbull-the-purpose-of-the-taker-in-is-to-pluck-finely-opened-flocks-out-of-the-feed-batt-tobr-lead-them-over-the-dirt-eliminating-parts-like-mote-knives-combing-segment-andbr-waste-plates-and-then-to-deliver-the-fibres-to-the-main-cylinder-in-highbr-production-cards-the-rotational-speed-ranges-from-700-1400br-andbull-the-treatment-for-opening-and-cleaning-imparted-by-taker-in-is-very-intensivebr-but-unfortunately-not-very-gentleremember-that-around-60-of-the-fibres-fed-tobr-the-main-cylinder-is-in-the-form-of-individual-fibresbr-andbull-the-circumferential-speed-of-taker-in-is-around-13-to-15-msec-and-the-draft-isbr-more-than-1000it-clearly-shows-that-fibre-gets-deteriorated-at-this-opening-pointbr-only-the-degree-of-deterioration-can-be-controlled-by-adjusting-the-followingbr-1-the-thickness-of-the-battbr-2-the-degree-of-openness-of-the-rawmaterialbr-3-the-degree-of-orientation-of-the-fibresbr-4-the-aggressiveness-of-the-clothingbr-5-the-distance-between-the-devicesbr-6-the-rotational-velocity-of-the-taker-inbr-7-the-material-throughputbr-andbull-latest-trutzschler-cards-work-with-three-licker-ins-compared-to-one-likerinbr-the-first-one-is-constructed-as-needle-roll-this-results-in-very-gentle-openingbr-and-an-extremely-long-clothing-life-for-this-roll-the-other-two-rollers-are-with-finerbr-clothing-and-higher-speeds-which-results-in-feeding-more-of-individual-fibresbr-and-smallest-tufts-compared-to-single-lickerin-to-the-main-cylinder-this-allowsbr-the-maing-cylinder-to-go-high-in-speeds-and-reduce-the-load-on-cylinder-and-flatbr-tops-there-by-higher-productivity-is-achieved-with-good-quality-but-thebr-performance-may-vary-for-different-materials-and-different-waste-levelsbr-andbull-between-the-taker-in-and-main-cylinder-the-clothings-are-in-the-doffingbr-disposition-it-exerts-an-influence-on-the-sliver-quality-and-also-on-thebr-improvement-in-fibres-longitudinal-orientation-that-occurs-here-the-effectbr-depends-on-the-draft-between-main-cylinder-and-taker-inthe-draft-between-mainbr-cylinder-and-taker-in-should-be-slightly-more-than-20br-andbull-the-opening-effect-is-directly-proportional-to-the-number-of-wire-points-per-fibrebr-at-the-taker-in-perhaps-03-points-fibre-and-at-the-main-cylinder-10-15-pointsbr-fibreif-a-given-quality-of-yarn-is-requireda-corresponding-degree-of-opening-atbr-the-card-is-needed-to-increase-production-in-carding-the-number-of-points-perbr-unit-time-must-also-be-increased-this-can-be-achieved-bybr-1-more-points-per-unit-areafiner-clothingbr-2-higher-roller-and-cylinder-speedsbr-3-more-carding-surface-or-carding-positionbr-speeds-and-wire-population-has-reached-the-maximum-further-increase-willbr-result-in-design-and-technological-roblems-hence-the-best-way-is-to-add-cardingbr-surface-stationary-flats-carding-plates-can-be-applied-atbr-4-under-the-liker-inbr-5-between-the-licker-in-and-flatsbr-6-between-flats-and-dofferbr-andbull-taker-in-does-not-deliver-100-individual-fibres-to-main-cylinder-it-deliversbr-around-70-as-small-flocks-to-main-cylinder-if-carding-segments-are-not-usedbr-the-load-on-cylinder-and-flats-will-be-very-high-and-carding-action-also-suffers-ifbr-carding-segemets-are-used-they-ensure-further-opening-thinning-out-andbr-primarily-spreading-out-and-improved-distribution-of-the-flocks-over-the-totalbr-surface-areacarding-segments-bring-the-following-advantagesbr-1-improved-dirt-and-dust-eliminationbr-2-improved-disentanglement-of-nepsbr-3-possibility-of-speed-increase-production-increasebr-4-preservation-of-the-clothingbr-5-possibility-of-using-finer-clothings-on-the-flats-and-cylinderbr-6-better-yarn-qualitybr-7-less-damage-to-the-clothingbr-8-cleaner-clothing-in-an-indepth-analysis-all-operating-elements-of-the-cardbr-were-therefore-checked-in-regard-to-their-influence-on-carding-intensity-itbr-showed-that-the-cylinder-flats-area-is-by-far-the-most-effectivebr-region-of-the-card-forbr-9-opening-of-flocks-to-individual-fibresbr-10-elimination-of-remaining-impuritiestrash-particlesbr-11-elimination-of-short-fibres-neps-also-removed-with-short-fibresbr-12-untangling-the-nepsbr-13-dust-removalbr-14-high-degree-of-longitudinal-orientation-of-the-fibresbr-andbull-the-main-work-of-the-card-separation-to-individual-fibres-is-done-between-thebr-main-cylinder-and-the-flats-only-by-means-of-this-fibre-separation-it-is-possible-tobr-eliminate-the-fine-dirt-particles-and-dustwhen-a-flat-enters-the-working-zone-itbr-gets-filled-up-very-quickly-once-it-gets-filled-after-few-secondsthereafter-hardlybr-any-further-take-up-of-fibres-occurs-only-cardingaccordingly-if-a-fibre-bundlebr-does-not-find-place-at-the-first-few-flats-then-it-can-be-opened-only-withbr-difficultyit-will-be-rolled-between-the-working-surfaces-and-usually-leads-to-nepbr-formationbr-andbull-in-princile-the-flats-can-be-moved-forwards-or-backwards-ie-in-the-samebr-direction-as-or-in-opposition-to-the-cylinderin-reverse-movement-the-flats-comebr-into-operative-relationship-with-the-cylinder-clothing-on-the-doffer-side-at-thisbr-stage-the-flats-are-in-a-clean-condition-they-then-move-towards-the-taker-in-andbr-fill-up-during-this-movementpart-of-their-receiving-capacity-is-thus-lost-butbr-sufficient-remains-for-elimination-of-dirt-since-this-step-takes-place-where-thebr-material-first-enters-the-flats-at-this-position-above-the-taker-in-the-cylinderbr-carries-the-material-to-be-cleaned-into-the-flats-the-latter-take-up-the-dirt-but-dobr-not-transport-it-through-the-whole-machine-as-in-the-forward-movement-systembr-instead-the-dirt-is-immediately-removed-from-the-machine-rieter-studies-showbr-clearly-that-the-greater-part-of-the-dirt-is-hurled-into-the-first-flats-directly-abovebr-the-taker-inbr-andbull-kaufmann-indicates-that-75-of-all-neps-can-be-disentagled-and-of-these-aboutbr-60-are-in-fact-disentagled-of-the-remaining-40-disentaglable-nepbr-1-30-33-pas-on-with-the-sliverbr-2-5-6-are-removed-with-the-flat-stripsbr-3-2-4are-eliminated-with-the-wastebr-the-intensity-of-nep-separation-depends-onbr-4-the-sharpness-of-the-clothingbr-5-the-space-setting-between-the-main-cylinder-and-the-flatsbr-6-tooth-density-of-the-clothingbr-7-speed-of-the-main-cylinderbr-8-speed-of-the-flat-topsbr-9-direction-of-flats-with-reference-to-cylinderbr-10-the-profile-of-the-cylinder-wirebr-andbull-the-arrangement-of-the-clothing-between-the-cylinder-and-the-doffer-is-not-meantbr-for-stripping-action-it-is-for-carding-actionthis-is-the-only-way-to-obtain-abr-condensing-action-and-finally-to-form-a-web-it-has-both-advantages-andbr-disadvantagesthe-advantage-is-that-additional-carding-action-is-obtained-herebr-and-it-differs-somewhat-from-processsing-at-the-flatsa-disadvantage-is-thatbr-leading-hooks-and-trailing-hooks-are-formed-in-the-fibres-beause-the-fibresbr-remain-caught-at-one-end-of-the-main-cylinderleading-hook-and-some-times-onbr-the-doffer-clothingtrailing-hookbr-andbull-there-are-two-rules-of-cardingbr-1-the-fibre-must-enter-the-carding-machine-be-efficiently-carded-and-takenbr-from-it-in-as-little-time-as-possiblebr-2-the-fibre-must-be-under-control-from-entry-to-exitbr-andbull-carding-effect-is-taking-place-between-cylinder-and-doffer-because-either-thebr-main-cylinder-clothing-rakes-through-the-fibres-caught-in-the-doffer-clothing-orbr-the-doffer-clothing-rakes-thro-the-fibres-on-the-main-cylinder-neps-can-still-bebr-disentangled-here-or-non-separated-fibre-bundles-can-be-opened-a-bit-in-thisbr-area-and-can-be-separated-during-the-next-passage-through-the-flatsbr-andbull-a-disadvantage-of-web-formation-at-the-card-is-the-formation-of-hooks-accordingbr-to-an-investigation-by-morton-and-yen-in-manchester-it-can-be-assumed-thatbr-1-50-of-the-fibres-have-trailing-hooksbr-2-15-have-leading-hooksbr-3-15-have-both-ends-hookedbr-4-20-without-hooksbr-andbull-leading-hooks-must-be-presented-to-the-comber-and-trailing-hooks-to-the-ringbr-spinning-frame-there-must-be-even-number-of-passages-between-card-andbr-comber-and-odd-number-between-the-card-and-ringframep]]> 2015 05 14 11:37 http://www.sriyadithatextile.com/ drafting-elements-guidelines http://www.sriyadithatextile.com//quality/basic-concept-of-ring-spinning.html Sriyadithatextile - drafting-elements-guidelines pstrongbasic-concept-of-ring-spinningstrongp pthe-ring-spinning-will-continue-to-be-the-most-widely-used-form-of-spinning-machine-inbr-the-near-future-because-it-exhibits-significant-advantages-in-comparison-with-the-newbr-spinning-processesp pfollowing-are-the-advantages-of-ring-spinning-framebr-andbull-it-is-universaly-applicable-ieany-material-can-be-spun-to-any-required-countbr-andbull-it-delivers-a-material-with-optimum-charactersticss-especially-with-regard-tobr-structure-and-strengthbr-andbull-it-is-simple-and-easy-to-masterbr-andbull-the-know-how-is-well-established-and-accessible-for-everyonebr-andbull-functions-of-ringframebr-andnbsp-andnbsp-andnbsp-to-draft-the-roving-until-the-reqired-fineness-is-achievedbr-andnbsp-andnbsp-andnbsp-to-impart-strength-to-the-fibre-by-inserting-twistbr-andnbsp-andnbsp-andnbsp-to-wind-up-the-twisted-strand-yarn-in-a-form-suitable-for-storagebr-andnbsp-andnbsp-andnbsp-andnbsp-transportaion-and-further-processingp pdraftingbr-andbull-drafting-arrangement-is-the-most-important-part-of-the-machine-it-influencesbr-mainly-evenness-and-strength-the-following-points-are-therefore-very-importantbr-andnbsp-andnbsp-drafting-typebr-andnbsp-andnbsp-design-of-drafting-systembr-andnbsp-andnbsp-drafting-settingsbr-andnbsp-andnbsp-selection-of-drafting-elements-like-cots-aprong-traveller-etcbr-andnbsp-andnbsp-choice-of-appropriate-draftbr-andnbsp-andnbsp-service-and-maintenancep pbr-andbull-drafting-arrangement-influence-the-economics-of-the-machine-directly-bybr-affecting-the-end-break-rate-and-indirectly-by-the-maximum-draft-possiblebr-br-andbull-if-higher-drafts-can-be-used-with-a-drafting-arrangement-then-coarser-roving-canbr-be-used-as-a-feeding-materialthis-results-in-higher-production-rate-at-the-rovingbr-frame-and-thus-reducing-the-number-roving-machines-required-space-personnelbr-and-so-onbr-andbull-in-fact-increase-in-draft-affects-the-yarn-quality-beyond-certain-limit-within-thebr-limit-some-studies-show-that-increase-in-draft-improves-yarn-quality-thebr-following-draft-limits-have-been-established-for-practical-operation-br-andnbsp-andnbsp-carded-cotton-upto-35br-andnbsp-andnbsp-carded-blends-upto-40br-andnbsp-andnbsp-combed-cotton-and-blendsmedium-counts-upto-40br-andnbsp-andnbsp-combed-cotton-and-blendsfine-counts-upto-45br-andnbsp-andnbsp-synthetic-fibres-upto-50br-andbull-the-break-draft-must-be-adapted-to-the-total-draft-in-each-case-since-the-mainbr-draft-should-not-exceed-25-to-30-it-should-be-noted-that-higher-the-break-draftbr-more-critical-is-the-break-draft-settingbr-andbull-the-front-top-roller-is-set-slightly-forward-by-a-distance-of-2-to-4mm-relative-to-thebr-front-bottom-roller-while-the-middle-top-roller-is-arranged-a-short-distance-of-2mmbr-behind-the-middle-bottom-rollerbr-andbull-overhang-of-the-front-top-roller-gives-smooth-running-of-the-top-rollers-andbr-shortens-the-spinning-trianglethis-has-a-correspondigly-favourable-influence-onbr-the-end-break-ratebr-andbull-rubber-cots-with-hardness-less-than-60-degrees-shore-are-normally-unsuitablebr-because-they-can-not-recover-from-the-deformation-caused-by-the-pressure-onbr-the-top-roller-while-runningbr-andbull-soft-rubbercots-for-toprollers-have-a-greater-area-of-contact-enclose-the-fibrebr-strand-more-completely-and-therefore-provide-better-guidance-for-thebr-fibreshowever-softer-cots-wear-out-significantly-faster-and-tend-to-form-morebr-lapsbr-andbull-normally-harder-rubbercots-are-used-for-back-top-rollers-because-the-rovingbr-which-enters-the-backroller-is-compact-little-twisted-and-it-does-not-require-anybr-additional-guidance-for-better-fibre-controlbr-br-in-the-front-top-roller-only-few-fibres-remain-in-the-strand-and-these-exhibit-abr-tendency-to-slide-apart-additional-fibre-guidance-is-thereforebr-necessarytherefore-rubbercots-with-hardness-levels-of-the-order-80-degrees-tobr-85-degrees-shore-are-mostly-used-at-the-back-roller-and-63-degrees-and-65br-degrees-at-the-front-rollerbr-andbull-if-coarse-yarns-and-synthetic-yarns-are-being-spun-harder-rubbercots-are-usedbr-at-the-front-roller-because-of-increased-wear-and-in-the-case-of-synthetic-yarns-tobr-reduce-lapupsbr-andbull-three-kinds-of-top-roller-weightingloading-are-presently-in-usebr-andnbsp-andnbsp-spring-loadingbr-andnbsp-andnbsp-pneumatic-loadingbr-andnbsp-andnbsp-magnetic-weightingbr-andbull-with-pneumatic-loading-system-the-total-pressure-applied-to-all-top-rolers-isbr-obtained-by-simple-adjustment-of-the-pressure-in-the-hose-using-pressurebr-reducing-valve-moreover-the-rubbercots-will-not-get-deformed-if-the-machine-isbr-stopped-for-a-longer-duration-because-the-pressure-on-top-rollers-can-bebr-released-to-the-minimum-levelbr-andbull-the-fibre-strand-in-the-main-drafting-field-consists-of-only-a-few-remaining-fibresbr-there-is-hardly-any-friction-field-and-fibre-guidance-provided-by-the-rollers-alonebr-is-inadequate-special-fibre-guiding-devices-are-therefore-needed-to-carry-out-abr-satisfactory-drafting-operation-double-apron-drafting-arrangements-with-longerbr-bottom-aprons-is-the-most-widely-used-guding-system-in-all-the-modernbr-ringframesbr-andbull-in-doube-apron-drafting-system-two-revolving-aprons-driven-by-the-middle-rollersbr-form-a-fibre-guiding-assembly-in-order-to-be-able-to-guide-the-fibres-the-upperbr-apron-must-be-pressed-with-controlled-force-against-the-lower-apron-for-thisbr-purpose-a-controlled-spacing-exit-opening-precisely-adapted-to-the-fibrebr-volume-is-needed-between-the-two-aprons-at-the-delivery-this-spacing-is-set-bybr-spacer-or-distance-clips-long-bottom-aprons-have-the-advantage-inbr-comparison-wiht-short-ones-that-they-can-be-easily-replaced-in-the-event-ofbr-damage-and-there-is-less-danger-of-choking-with-fluffbr-andbull-spindles-and-their-drive-have-a-great-influence-on-power-consumption-and-noisebr-level-in-the-machine-the-running-characteristics-of-a-spindle-especiallybr-imbalance-and-eccentricity-relative-to-the-ring-flange-also-affect-yarn-quality-andbr-of-course-the-number-of-end-breakage-almost-all-yarn-parameters-are-affectedbr-by-poorly-running-spindles-hence-it-should-be-ensured-that-the-centering-of-thebr-spindles-relative-to-the-rings-is-as-accurate-as-possible-since-the-ring-andbr-spindle-form-independent-units-and-are-able-to-shift-relative-to-each-other-inbr-operation-these-two-parts-must-be-re-centered-from-time-to-time-previously-thisbr-was-done-by-shifting-the-spindle-relative-to-the-ring-but-now-it-is-usually-carriedbr-out-by-adjusting-the-ringbr-andbull-in-comparison-with-tangential-belt-drive-the-4-spindle-drive-has-the-advantagesbr-of-lower-noise-level-and-energy-consumption-and-tapes-are-easier-to-replacebr-andbull-lappet-guide-performs-the-same-sequence-of-movements-as-the-ringrail-but-withbr-a-shorter-stroke-this-movement-of-the-guide-ensures-that-differences-in-thebr-balloon-height-caused-by-changes-in-the-ring-rail-positions-do-not-become-toobr-large-this-helps-to-control-the-yarn-tension-variation-with-in-control-so-that-endsbr-down-rate-and-yarn-charactersitics-are-under-controlbr-andbull-spindles-used-today-are-relatively-long-the-spacing-between-the-ring-and-thebr-thread-guide-is-correspondingly-long-thus-giving-a-high-balloon-this-has-twobr-negative-influencebr-andnbsp-andnbsp-a-high-balloon-results-in-large-bobbin-diameter-leading-to-space-problemsbr-andnbsp-andnbsp-larger-the-balloon-diameter-higher-the-air-drag-on-the-yarnthis-inturnbr-andnbsp-andnbsp-andnbspcauses-increased-deformation-of-the-balloon-curve-out-of-hte-planebr-andnbsp-andnbsp-andnbspintersecting-the-spindle-axisthis-deformation-can-lead-to-balloon-stabilitybr-andnbsp-andnbsp-andnbspthere-is-increase-danger-of-collapsebr-both-these-disadvantages-result-in-higher-yarn-tension-thereby-higherbr-endbreaksin-order-to-avoid-this-balloon-control-rings-are-used-it-divides-thebr-balloon-into-two-smaller-sub-balloons-inspite-of-its-large-overall-height-thebr-double-balloon-created-in-this-way-is-thoroughly-stable-even-at-relatively-low-yarnbr-tensionbr-andbull-balloon-control-rings-therefore-help-to-run-the-mahcine-with-long-spindleslongerbr-lift-and-at-high-spindle-speed-but-with-lower-yarn-tension-since-the-yarn-rubsbr-against-the-control-ring-it-may-cause-roughening-of-the-yarnbr-andbull-most-ends-down-arise-from-breaks-in-the-spinning-triangle-because-very-highbr-forces-are-exerted-on-a-strand-consisting-of-fibres-which-have-not-yet-been-fullybr-bound-together-in-the-spinning-trianglep]]> 2015 05 14 10:10 http://www.sriyadithatextile.com/ preparatory-process-guide-lines http://www.sriyadithatextile.com//quality/cotton-mixing-and-blowroom-technical-points.html Sriyadithatextile - preparatory-process-guide-lines pstrongcotton-mixingstrongp pcotton-is-a-hygroscopic-material-hence-it-easily-adapts-to-the-atmosphericp pairconditions-air-temperature-inside-the-mxing-and-blowroom-area-should-be-more-thanp p25-degree-centigrade-and-the-relative-humidity-rh-should-be-around-45-to-60-p pbecause-high-moisture-in-the-fibre-leads-to-poor-cleaning-and-dryness-in-the-fibre-leadsp pto-fibre-damages-which-ultimately-reduces-the-spinnability-of-cottonp pcotton-is-a-natural-fibre-the-following-properties-vary-very-much-between-balesp pbetween-fibres-fibre-micronaire-fibre-length-fibre-strength-fibre-color-fibre-maturity-outp pof-these-fibre-micronaire-color-maturity-and-the-origin-of-growth-results-in-dyep pabsorption-variation-there-fore-it-is-a-good-practice-to-check-the-maturity-color-andp pmicronaire-of-all-the-bales-and-to-maintain-the-following-to-avoid-dye-pick-up-variationp pand-barre-in-the-finished-fabricp pandnbspp pbale-management-p pandnbspp pin-a-particular-lotp ul limicronaire-range-of-the-cotton-bales-used-should-be-same-for-all-the-mixings-of-ali ul plotp ul limicronaire-average-of-the-cotton-bales-used-should-be-same-for-all-the-mixings-ofli ul pa-lotp ul lirange-of-color-of-cotton-bales-used-should-be-same-for-all-the-mixings-of-a-lotli liaverage-of-color-of-cotton-bales-used-should-be-same-for-all-the-mixings-of-a-lotli lirange-of-matutrity-coefficient-of-cotton-bales-used-should-be-same-for-all-mixingsli ul pof-a-lotp ul liaverage-of-maturity-coefficient-of-cotton-bales-used-should-be-same-for-allli ul pmixings-of-a-lotp pplease-note-in-practice-people-do-not-consider-maturity-coefficient-sincep pmicronaire-variation-and-maturity-variation-are-related-to-each-other-for-ap pparticular-cottonp pandnbspp pif-the-cotton-received-is-from-different-ginners-it-is-better-to-maintain-the-percentage-ofp pcotton-from-different-ginners-throught-the-lot-even-though-the-type-of-cotton-is-samep pit-is-not-advisable-to-mix-the-yarn-made-of-out-of-two-different-shipments-of-same-cottonp pfor-example-the-first-shipment-of-west-african-cotton-is-in-january-and-the-secondp pshipment-is-in-march-it-is-not-advisable-to-mix-the-yarn-made-out-of-these-two-differentp pshipments-if-there-is-no-shadevariation-after-dyeing-then-it-can-be-mixedp paccording-to-me-stack-mixing-is-the-best-way-of-doing-the-mixing-compared-to-usingp pautomatic-bale-openers-which-picks-up-the-material-from-40-to-70-bales-depending-onp pthe-length-of-the-machine-and-bale-size-provided-stack-mixing-is-done-perfectlyp pimproper-stack-mixing-will-lead-to-barre-or-shade-variation-problem-stackp pmixing-with-bale-opener-takes-care-of-short-term-blending-and-two-mixers-in-seriesp ptakes-care-of-long-term-blendingp pandnbspp ul lituft-sizes-can-be-as-low-as-10-grams-and-it-is-the-best-way-of-opening-theli ul pmaterialnep-creation-will-be-less-care-has-to-be-taken-to-reduce-recyling-in-thep pinclined-latticep ul licontaminations-can-be-removed-before-mixing-is-madeli lithe-raw-material-gets-acclamatised-to-the-required-temp-and-rh-since-it-isli ul pallowed-to-stay-in-the-room-for-more-than-24-hours-and-the-fibre-is-opened-thep pfibre-gets-conditioned-wellp pdisadvantages-p ul limore-labour-is-requiredli limore-space-is-requiredli limixing-may-not-be-100-homogeneous-can-be-overcome-by-installing-doubleli ul pmixersp pandnbspp pif-automatic-bale-opening-machine-is-used-the-bales-should-be-arranged-asp pfollowsp plet-us-assume-that-there-are-five-different-micronaires-and-five-different-colors-inp pthe-mixing-50-bales-are-used-in-the-mxing-5-to-10-groups-should-be-made-byp pgrouping-the-bales-in-a-mixing-so-that-each-group-will-have-average-micronairep pand-average-color-as-that-of-the-overall-mixing-the-position-of-a-bale-forp pmicronaire-and-color-should-be-fixed-for-the-group-and-it-should-repeat-in-thep psame-order-for-all-the-groupsp pit-is-always-advisable-to-use-a-mixing-with-very-low-micronaire-rangepreferablyp p6-to-10-becausep ul liit-is-easy-to-optimise-the-process-parameters-in-blow-room-and-cardsli lidrafting-faults-will-be-lessli lidyed-cloth-appearance-will-be-better-because-of-uniform-dye-pickup-etcli ul pit-is-advisable-to-use-single-cotton-in-a-mixing-provided-the-length-strengthp pmicronaire-maturity-coefficient-and-trash-content-of-the-cotton-will-be-suitable-forp pproducing-the-required-counts-automatic-bale-opener-is-a-must-if-more-than-twop pcottons-are-used-in-the-mixing-to-avoid-barre-or-shade-variation-problemp pit-is-better-to-avoid-using-the-following-cottonsp ul licottons-with-inseparable-trash-very-small-size-even-though-the-trash-is-lessli listicky-cotton-with-honey-dew-or-sugarli licotton-with-low-maturity-co-efficientli ul pstickiness-of-cotton-consists-of-two-major-causes-honeydew-from-whiteflies-andp paphids-and-high-level-of-natural-plant-sugars-the-problems-with-the-randomlyp pdistributed-honey-dew-contamination-often-results-in-costly-proudctionp pinterruptions-and-requires-immediate-action-often-as-severe-as-discontinuing-thep puse-of-contaminated-cottons-an-effective-way-to-control-cotton-stickiness-inp pprocessing-is-to-blend-sticky-and-non-sticky-cotton-sticky-cotton-percentagep pshould-be-less-than-25p pandnbspp pstrongblowroomstrongp pandnbspp pblowroomp pbasic-operations-in-the-blowroom-p ol liopeningli licleaningli limixing-or-blendingli limicrodust-removalli liuniform-feed-to-the-carding-machineli lirecycling-the-wasteli ol pandnbspp pblow-room-installations-consists-of-a-sequence-of-different-machines-to-carry-out-thep pabove-said-operationsmoreover-since-the-tuft-size-of-cotton-becomes-smaller-andp psmaller-the-required-intensities-of-processing-necessitates-different-machinep pconfigurationp pandnbspp ptechnological-points-in-blowroomp pandnbspp pandnbspopening-in-blowroom-means-opening-into-small-flockstechnological-operation-ofp popening-means-the-volume-of-the-flock-is-increased-while-the-number-of-fibres-remainsp pconstant-ie-the-specific-density-of-the-material-is-reducedp ul lithe-larger-the-dirt-particle-the-better-they-can-be-removedli lisince-almost-every-blowroom-machine-can-shatter-particles-as-far-as-possible-ali ul plot-of-impurities-should-be-eliminated-at-the-start-of-the-processopening-shouldp pbe-followed-immediately-by-cleaning-if-possible-in-the-same-machinep ul lithe-higher-the-degree-of-opening-the-higher-the-degree-of-cleaning-a-very-highli ul pcleaning-effect-is-almost-always-purchased-at-the-cost-of-a-high-fibre-loss-higherp proller-speeds-give-a-better-cleaning-effect-but-also-more-stress-on-the-fibrep pandnbspp ul licleaning-is-made-more-difficult-if-the-impurities-of-dirty-cotton-are-distributedli ul pthrough-a-larger-quantity-of-material-by-mxing-with-clean-cottonp ul lithe-cleaning-efficiency-is-strongly-dependent-on-the-trash-it-is-also-affectedli ul pby-the-size-of-the-particle-and-stickyness-of-cotton-therefore-cleaning-efficiencyp pcan-be-different-for-different-cottons-with-the-same-trash-p ul lithere-is-a-new-concept-called-cleaning-resistance-different-cottons-haveli ul pdifferent-cleaning-resistancep ul liif-cotton-is-opened-well-in-the-opening-process-cleaning-becomes-easierli ul pbecause-opened-cotton-has-more-surface-area-therefore-cleaning-is-morep pefficientp ul liif-automatic-bale-opener-is-used-the-tuft-size-should-be-as-small-as-possible-andli ul pthe-machine-stop-time-should-be-reduced-to-the-minimum-level-possiblep ul liif-manual-bale-openers-are-used-the-tuft-size-fed-to-the-feed-lattice-should-be-asli ul psmall-as-possiblep ul lidue-to-machine-harvesting-cotton-contains-more-and-more-impurities-whichli ul pfurthermore-are-shattered-by-hard-ginning-therefore-cleaning-is-always-anp pimportant-basic-operationp ul liin-cleaning-it-is-necessary-to-release-the-adhesion-of-the-impurities-to-the-fibresli ul pand-to-give-hte-particles-an-opportunity-to-separate-from-the-stock-the-former-isp pachieved-mostly-by-picking-of-flocks-the-latter-is-achieved-by-leading-the-flocksp pover-a-gridp ul liusing-inclined-spiked-lattice-for-opening-cotton-in-the-intial-stages-is-always-ali ul pbetter-way-of-opening-the-cotton-with-minimum-damages-ofcourse-thep pproduction-is-less-with-such-type-of-machines-but-one-should-bear-in-mind-that-ifp pmaterial-is-recyled-more-in-the-lattice-neps-may-increasep ul litraditional-methods-use-more-number-of-machines-to-open-and-clean-naturalli ul pfibresp ul limechanical-action-on-fibres-causes-some-deterioration-on-yarn-qualityli ul pparticularly-in-terms-of-neps-moreover-it-is-true-that-the-staple-length-of-cottonp pcan-be-significantly-shortenedp pandnbspp ul liintensive-opening-in-the-initial-machines-like-bale-breaker-and-blending-machinesli ul pmeans-that-shorter-overall-cleaning-lines-are-adequatep ul liin-a-beating-operation-the-flocks-are-subjected-to-a-sudden-strong-blow-theli ul pinertia-of-the-impurities-accelerated-to-a-high-speed-is-substantially-greater-thanp pthat-of-the-opened-flocks-due-to-the-low-air-resistance-of-the-impurities-the-latterp pare-hurled-against-the-grid-and-because-of-their-small-size-pass-between-the-gridp pbars-into-the-waste-box-while-the-flocks-continue-around-the-periphery-of-thep protating-beaterp ul liby-using-a-much-shorter-machine-sequence-fibres-with-better-elastic-propertiesli ul pand-improved-spinnability-can-be-producedp ul liair-streams-are-often-used-in-the-latest-machine-sequence-to-separate-fibresli ul pfrom-trash-particles-by-buoyancy-differences-rather-than-beating-the-materialp pagainst-a-series-of-grid-barsp pandnbspp ul lithere-are-three-types-of-feeding-apparatus-in-the-blowroom-opening-machinesli ul ol litwo-feed-rollers-clampedli lifeed-roller-and-a-feed-tableli lia-feed-roller-and-pedalsli ol pandnbspp ul litwo-feed-roller-arrangements-gives-the-best-forwarding-motion-but-unfortunatelyli ul presults-in-greatest-clamping-distance-between-the-cylinders-and-the-beatingp pelementp ul lifeed-roller-and-pedal-arrangement-gives-secure-clamping-throughout-the-widthli ul pand-a-small-clamping-distance-which-is-very-critical-for-an-opening-machinep ul liin-a-feed-roller-and-table-arrangement-the-clamping-distance-can-be-made-veryli ul psmall-this-gives-intensive-opening-but-clamping-over-the-whole-width-is-poorp pbecause-the-roller-presses-only-on-the-highest-points-of-the-web-thin-places-inp pthe-web-can-be-dragged-out-of-hte-web-as-a-clump-by-the-beatersp ul lihoneydew-sugar-or-stickiness-in-cotton-affect-the-process-very-badlyli ul pbeacause-of-that-production-and-quality-is-affected-particles-stick-to-metalp psurfaces-and-it-gets-aggreavated-with-heat-and-pressure-these-depositsp pchange-the-surface-characteristics-which-directly-affects-the-quality-and-runningp pbehaviorp pandnbspp ul lithere-are-chemicals-which-can-be-sprayed-to-split-up-the-sugar-drops-to-achieveli ul pbetter-distribution-but-this-system-should-use-water-solutions-which-is-notp precommeded-due-to-various-reasonsp ul liit-is-better-to-control-the-climate-inside-the-department-when-sticky-cotton-is-usedli ul plow-temperature-around-22-degree-celcius-and-low-humidity-45-rh-thisp prequires-an-expensive-air-conditioning-set-upp ul lithe-easiest-way-to-process-sticky-cotton-is-to-mix-with-good-cotton-and-toli ul pprocess-through-two-blending-machines-with-6-and-8-doublings-and-to-installp pmachines-which-will-seggregate-heavier-particles-by-buoyanccy-differencesp ul ligeneral-factors-which-affect-the-degree-of-opening-cleaning-and-fibre-loss-areli ul ol lithickness-of-the-feed-webli lidensity-of-the-feed-webli lifibre-coherenceli lifibre-alignmentli lisize-of-the-flocks-in-the-feed-flock-size-may-be-same-but-density-isli ol pdifferentp ol-start-6- lithe-type-of-opening-deviceli lispeed-of-the-opening-deviceli lidegree-of-penetrationli litype-of-feed-loose-or-clampedli lidistance-between-feed-and-opening-deviceli litype-of-opening-deviceli litype-of-clothingli lipoint-density-of-clothingli liarrangement-of-pins-needles-teethli lispeeds-of-the-opening-devicesli lithroughput-speed-of-materialli litype-of-grid-barsli liarea-of-the-grid-surfaceli ligrid-settingsli liairflow-through-the-gridli licondition-of-pre-openingli liquantity-of-material-processedli liposition-of-the-machine-in-the-machine-sequenceli lifeeding-quantity-variation-to-the-beaterli liambient-rhli liambient-temperatureli ol pandnbspp ul licotton-contains-very-little-dust-before-ginning-dust-is-therefore-caused-byli ul pworking-of-the-material-on-the-machine-new-dust-is-being-created-throughp pshattering-of-impurities-and-smashing-and-rubbing-of-fibres-however-removal-ofp pdust-is-not-simple-dust-particles-are-very-light-and-therefore-float-with-the-cottonp pin-the-transport-streamfurthermore-the-particles-adhere-quite-strongly-to-thep pfibres-if-they-are-to-be-eliminated-they-are-to-be-rubbed-offthe-main-eliminationp ppoints-for-adhering-dust-therefore-are-those-points-in-the-process-at-which-highp pfibremetal-friction-or-high-fibrefibre-friction-is-producedp ul liremoval-of-finest-particles-of-contaminants-and-fibre-fragments-can-beli ul paccomplished-by-releasing-the-dust-into-the-air-like-by-turning-the-material-overp pand-then-removing-the-dust-contaminated-air-release-of-dust-into-the-air-occursp pwhereever-the-raw-material-is-rolled-beaten-or-thrown-aboutaccordingly-the-airp pat-such-positions-is-sucked-away-perforated-drums-stationary-perforated-drumsp p-stationary-combs-etc-are-some-instruments-used-to-remove-dustp]]> 2015 05 12 15:41 http://www.sriyadithatextile.com/ ddd http://www.sriyadithatextile.com//quality/administrator.html Sriyadithatextile - ddd pegfegfegetgethbp]]> 2015 04 18 18:33 http://www.sriyadithatextile.com/ count-conversion http://www.sriyadithatextile.com//quality/count_conversion.html Sriyadithatextile - count-conversion paccording-to-the-yarn-count-definition-given-inandnbspstrongbritish-standardsstrongandnbspby-using-following-formula-you-can-convert-yarn-count-from-one-unit-to-anotherp table tbody tr td-width-31-andnbsptd td-width-144- pstrongfrom-andndash-tostrongp td td-width-258- pstrongformulastrongp td tr tr td-width-31- pstrongandnbsp1strongp td td-width-144- pne-to-denierp td td-width-258- p5315-nep td tr tr td-width-31- pstrongandnbsp2strongp td td-width-144- pdenier-to-nep td td-width-258- p5315-denierp td tr tr td-width-31- pstrongandnbsp3strongp td td-width-144- pne-to-nmp td td-width-258- pneandnbspx-169p td tr tr td-width-31- pstrongandnbsp4strongp td td-width-144- pnm-to-nep td td-width-258- pnm-andnbsp-169p td tr tr td-width-31- pstrongandnbsp5strongp td td-width-144- pdenier-to-nmp td td-width-258- p9000-denierp td tr tr td-width-31- pstrongandnbsp6strongp td td-width-144- pnm-to-denierp td td-width-258- p9000-nmp td tr tr td-width-31- pstrongandnbsp7strongp td td-width-144- pne-to-texp td td-width-258- p5905-nep td tr tr td-width-31- pstrongandnbsp8strongp td td-width-144- ptex-to-nep td td-width-258- p5905-texp td tr tr td-width-31- pstrongandnbsp9strongp td td-width-144- ptex-to-nmp td td-width-258- p1000-texp td tr tr td-width-31- pstrongandnbsp10strongp td td-width-144- pnm-to-texp td td-width-258- p1000-nmp td tr tr td-width-31- pstrongandnbsp11strongp td td-width-144- ptex-to-denierp td td-width-258- ptex-x-9p td tr tr td-width-31- pstrongandnbsp12strongp td td-width-144- pdenier-to-texp td td-width-258- pdenier-9p td tr tr td-width-31- pstrongandnbsp13strongp td td-width-144- pdenier-to-decitexp td td-width-258- pdenier-09p td tr tr td-width-31- pstrongandnbsp14strongp td td-width-144- pnm-to-decitexp td td-width-258- p10000-nmp td tr tr td-width-31- pstrongandnbsp15strongp td td-width-144- pne-to-decitexp td td-width-258- p5905-nep td tr tbody table]]> 2015 04 14 20:31 http://www.sriyadithatextile.com/ yarnrovingsliver-evenness-tester-with-two-independent-testing-units http://www.sriyadithatextile.com//quality/premier_iq2_dx_evenness_tester.html Sriyadithatextile - yarnrovingsliver-evenness-tester-with-two-independent-testing-units pandnbspp pstrongempremieremstrongs-philosophy-of-intelligent-technology-intelligent-solutions-and-intelligent-support-is-designed-to-address-the-challenges-while-at-the-same-time-making-it-easier-for-the-textile-producer-to-achieve-his-quality-goalsp pstrongpremier-iq2-dx-andndash-evenness-testerstrongp pandnbspp pmeasurement-of-yarn-rovingsliver-for-evenness-and-other-properties-from-two-independent-testing-towersp punrivaled-knowledge-base-with-automatic-variance-length-curve-and-drafting-wave-analysis-analysis-of-the-deviation-and-identification-of-the-machinery-component-responsible-with-spectrogram-analysis-including-450-gearing-diagrams-for-cotton-synthetic-and-worsted-industryp pintelligent-alert-prompts-the-user-to-look-into-specific-exceptions-while-testingp pslub-and-fancy-yarn-measurement-with-black-board-and-fabric-simulationp pnep-classification-foreign-fibre-and-white-pp-classification-to-fine-tune-the-spinning-preparatory-processp p3-unique-hairiness-measurement-hair-severity-hair-count-distribution-and-hairiness-index-simultaneously-for-the-first-time-an-intelligent-solution-based-on-hair-severity-hs-statistics-provide-practical-and-user-friendly-guidelinesp pstrongpremier-evolvics-pvt-ltdstrongbr-sf-no-796-kulathur-roadbr-venkitapuram-postbr-coimbatore-641-062-indiap pphone-91-422-6611000p pfaxandnbspandnbspandnbspandnbsp-91-422-6611005p pe-mailandnbsp-a-href-mailto-salespremier-1com-salespremier-1comap pandnbspp]]> 2015 04 13 17:50 http://www.sriyadithatextile.com/ uster-technologies-fibre-testing-instrument http://www.sriyadithatextile.com//quality/uster_hvi_1000_fibre_testing_instrument.html Sriyadithatextile - uster-technologies-fibre-testing-instrument pstrongusterandreg-emhvi-1000emstrongp pusing-patented-technology-the-usterandreg-emhvi-1000em-rapidly-provides-full-reports-on-11-important-quality-characteristics-describing-the-length-strength-fineness-color-and-moisture-content-of-the-fiber-spinners-need-to-have-confidence-in-the-quality-of-the-raw-cotton-they-are-sourcing-the-ability-to-test-and-class-cotton-accurately-using-the-usterandregem-hvi-1000em-is-vital-to-purchase-decisionsp pthe-recognition-accorded-to-usterandreg-emhviem-is-underscored-in-the-universal-cotton-standards-agreement-andndash-signed-by-24-cotton-associations-from-21-countries-andndash-which-approves-universal-cotton-quality-standards-for-strength-length-uniformity-index-micronaire-color-grade-these-standards-are-fixed-as-the-universal-hvi-standards-and-are-maintained-using-usterandreg-emhvi-1000em-to-establish-the-valuesp pthe-most-important-confidence-builder-between-cotton-buyers-and-sellers-is-that-cotton-classification-data-from-instruments-in-any-part-of-the-world-matches-perfectly-trading-partners-will-often-test-cotton-samples-on-different-instruments-to-check-bale-quality-and-it-is-vital-for-mutual-trust-and-confidence-that-the-quality-data-each-obtains-is-both-accurate-and-in-agreement-with-that-of-the-other-party-usterandregem-hvi-1000em-is-the-only-cotton-classification-instrument-in-the-world-able-to-deliver-those-requirementsp pstrongfeatures-strongp ul litwo-targeted-models-of-the-usterandreg-emhvi-1000em-are-available-each-meeting-the-needs-of-a-specific-group-of-customersli limeasures-all-the-important-quality-parameters-currently-used-in-the-cotton-trade-micronaire-fiber-length-length-uniformity-strength-color-and-trashli lipatented-comb-moisture-measuring-sample-moisture-content-where-it-counts-at-the-lengthstrength-sampleli lipatented-xenon-flash-for-unrivaled-color-measurementli liautomatic-sampling-system-for-unrivaled-accuracy-in-length-and-strength-measurementli lioptional-nep-and-uv-fluorescence-modulesli lireferences-in-usterandreg-emstatisticsem-global-benchmarksli ul pstrongcontact-uster-technologiesstrongp pstronguster-technologies-agbr-strongsonnenbergstrasse-10br-ch-8610-usterandnbspbr-switzerlandbr-br-br-phone-andnbspandnbspandnbsp41-43-366-36-36br-fax-andnbsp-andnbsp-andnbspandnbsp41-43-366-36-37p pa-href-mailto-infoustercom-infoustercomaandnbspp]]> 2015 04 13 17:10 http://www.sriyadithatextile.com/ testing 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