***PLEASE FILL UP THIS FORM FOR ENQUIRY OR BOOKING ORDER OR SAMPLE OTHER WISE NO NEGATION WITH US. debsons® DEBSONS DIVERSHIFIED PRODUCTS. Dear Sir, Thanks for your letter.Welcome you to visit our unit .The quality of the goods that we manufacture are as according to theINDIAN STANDARD and BRITISH STANDARD. YOUR ORDER MUST CONTAIN MENTIONED INFORMATION. PRINT YOUR LETTER HEAD AND STAMP & SIGNATURE SEND BY DHEL / FEDEX. FOR OUR GOVT OF INDIA ECGC,MINISTRY OF FINANCE AND EXTERNAL AFFIRS OF YOUR REGISTRATION. ALWAYS CONTACT BY E- MAILOR 09433090832 DATE 12.01.2015 CONTACT PERSON: PH NO : M/S: ADDRESS: PIN :* PHONE NO :MOBILE : FAX : E MAIL : WEB SITE : VAT NO : SALES TAX NO : CST NO : MARKS : IEC NO : PAN NO : RCMC NO : TRANSPORTER : PH NO : KOLKATA/JNPT/KANDLA. TO FINAL DESTINATION PAYMENT : BANKER’S NAME ADRESS PHONE NO FAX NO ACCOUNT NO YOUR ODER NO DATE PROFMA NO DATE SL DESCRIPTION RATE AMOUNT $,€, 01 02 MATERIALS : WITH OUR/YOURS. : DELIVARY WITH IN FIFTEEN DAYS.:FROM DATE OF RECEIPT OF YOUR L/C OR PURCHASE ORDER : PAYMENT : 100% AGAINST YOUR ORDER AFTER FRIST CONTAINERWE SHALLALLOW TO15,30,60,OR 90 DAYS L/C . THANKING YOU. YOURS FAITHFULLY. ( STAMP & SIGNATURE ) MOST IMPT*** PRINT YOUR LETTER HEAD AND POST TO OUR CROSSPONDENT ADDRESS.
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***PLEASE FILL UP THIS FORM FOR ENQUIRY OR ...ed fibre rope in heavy cons pulling and connecting. Co mm on m at erials for rope inclu de manila, hemp, hair, nylon, and steel. A. Fibres
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***PLEASE FILL UP THIS FORM FOR ENQUIRY OR BOOKING ORDER OR SAMPLE
OTHER WISE NO NEGATION WITH US.
debsons®
DEBSONS DIVERSHIFIED PRODUCTS. Dear Sir, Thanks for your letter.Welcome you to visit our unit .The quality of the goods that we manufacture are as according to
theINDIAN STANDARD and BRITISH STANDARD.
YOUR ORDER MUST CONTAIN MENTIONED INFORMATION. PRINT YOUR LETTER HEAD AND STAMP &
SIGNATURE SEND BY DHEL / FEDEX. FOR OUR GOVT OF INDIA ECGC,MINISTRY OF
FINANCE AND EXTERNAL AFFIRS OF YOUR REGISTRATION. ALWAYS CONTACT BY E-
MAILOR 09433090832 DATE 12.01.2015
CONTACT PERSON: PH NO :
M/S:
ADDRESS:
PIN :*
PHONE NO :MOBILE : FAX :
E MAIL : WEB SITE :
VAT NO : SALES TAX NO : CST NO :
MARKS :
IEC NO : PAN NO : RCMC NO :
TRANSPORTER : PH NO :
KOLKATA/JNPT/KANDLA. TO FINAL DESTINATION
PAYMENT :
BANKER’S NAME
ADRESS
PHONE NO FAX NO
ACCOUNT NO
YOUR ODER NO DATE PROFMA NO DATE
SL DESCRIPTION RATE AMOUNT $,€,
01
02
MATERIALS : WITH OUR/YOURS. : DELIVARY WITH IN FIFTEEN DAYS.:FROM DATE OF RECEIPT OF YOUR
L/C OR PURCHASE ORDER : PAYMENT : 100% AGAINST YOUR ORDER AFTER FRIST CONTAINERWE
UNIT : NUDDIA JUTE MILL LTD.(JUTE). TAMRALIPTA CO-OPERTIVE SPINNING MILLS LTD. TO REQUIRED SPECIFICATION SIZE & DESCRIPTION .WE ALSO GIVE A FABRIC FINISH TO YOUR DESIGNS.
ALL UNITS UTILIZE NO CHILD LABOURS, WEHAVE 60 % RESERVATION FOR HANDI CRAFT & REHALIBILITATION PEOPLE ORGANIC # FIRE RETARDENT # ROT & WATER PROOF # DYEING # LATEX
pulling and connecting. Commonmaterials for rope include manila, hemp, hair, nylon, and steel.
A. Fibres– B. Yarns – C. Strands – D. Rope-C .BRADED.
Other fibrous plant materials sometimes used includecotton, linen, coconut-husk fibre (coir),jute, and sisal. Other synthetic fibres inuse include various forms ofpolypropylene, polyethylene and polyester. Some ropesare constructed of mixtures of several fibres.
Rope has been an essential tool since prehistoric times.Today, steel wire ropehas largely supplanted fibre rope in heavy constructionand industrialapplications because of higher tensilestrength. Fibrerope isstill used extensively in light industry and in activities likesailing, climbing and Scouting.
In order to fasten ropes, a large number of knots are used. Some rope material, like hemp, is stronger when wet with water.
Manila hempis a type of fibre obtained from the leaves ofthe Abaca, a relative of the banana.It is mostly used to makeropes and it is the most durable of thenatural fibres.Other uses for manila fibre are coarse fabric and paper, includingManila envelopes and Manila papers.
Hemp is acommon name for Cannabisand the namemost used when this annual plant is grown for non- drug purposes.
Sisalor sisal hemp is an Agave that yields a stiff fibreused in making rope.
Jute is a long, soft, shiny plant fibre that can be spun into coarse, strong threads.It is produced from plants in the genusCorchorus.
Coir (from Malayalam kayaru -cord) is a coarse fibre extracted from the fibrous outer shell of a coconut.
Nylon is a synthetic polymer, a plastic, invented on February 28, 1935 by Wallace Carothersat DuPont of Wilmington, Delaware, USA. The material was announced in 1938, and the first nylon products were a nylon bristled toothbrush madewith nylon yarn (on sale onFebruary 24,1938) and more famously,women's stockings (onsale on May15, 1940).
Steelis a metal alloy whose majorcomponent is iron,with carbon being the primary alloyingmaterial.
Cotton is a soft fibre that grows around the seeds of the cotton plant, a shrub native to the tropical and subtropical regions of both the Old Worldand the New World. The fibre is most often spun into thread and used to makea soft, breathabletextile.
Linen is a material made from the fibresofthe flax (and historically, cannabis) plant.
Left - Hemp
Manila Sisal Coir Variety of Rope
RopeMaking,theBeginning
The art of rope making was one of the secret guilds of the Middle Ages. So successfulwere they in keeping their
secrets that even today there is little written about the craft.
Some rope making techniques in order of complexity The beginning of rope making is lost in prehistory, butthere are evidences of ropebeing made as far back as 17,000 BC Theseearly ropes were twisted by handor braided. The earliest indication of any type of mechanical advantage inmaking ropecomes from early Egyptian evidence relating to the craft.
The Egyptians used a weighted rope tiedto a stick to makerope. The rope to bemade was tied to the weighted rope that wasspun around the stick. The spinning imparted a twist to the strand. Three twisted strandswould then be twisted togetherin the opposite direction. The idea that the ropeswere made usinga weighted rope came from inscriptions. In reality, this type of a systemwill not work. It is likelythat the inscriptionswere of a staticmaterial such as aweighted wooden dowel, paddle,etc. The dowels may have beencarved to represent rope. A staticmethod doesworkwell, although it will not make long rope. This is very similar to the methodused by the Southwest Indians in America about 1,000AD.
In the Middle Ages (from the thirteenth century to the eighteenth century), from the British Isles to the Mediterranean, rope wasmade using a"rope walk"method. This allowed for long ropes of up to 300 yards long or longer to be made. Short ropes are useless ontall ships, which require ropes to be long, relatively uniform in diameter, andstrong. Short ropeswould require splicingto make themlong. The strongest form of splicing is theshortsplice, which doubles the diameterof the ropeat the area ofthe splice. This wouldcause problems in the rigging hardware such as buckles andpulleys.
The actual history of the rope making industry in medievaltimes isvery scant, to say the least.One of the most comprehensive works on the history of rope, “ROPE a historyof the HardFibre Cordage Industryin the UnitedKingdom”, has very little tosay about the craft during this time period. In 1393 wehave a representation of the first stage of ropemaking - that ofspinning the yarn-taken from the Mandelshes Portrait Buch in Nuremburg. So little difference from what waspracticed for the next five hundred yearsin Europe is shown that this may serve as a text for a fairly full description of the art during the period indicated. The first real improvement in the craft came withan inventionin 1792called the Cordelier, invented byEdmund Cartwright, (1743–1823).
Finally, "Yarns, twines andropes can bemade by machine nowadays, but the rope makers of older days were accustomed to making all of thesein a ropewalk.The principal of the walkis that yarns are stretched out between revolving hooks, often 300 yards apart, and these hooks twist the yarns together…." The Navy required a minimum of 120fathoms (720 feet), which was the minimum needed to anchor aship.
AROPEWALKÆ
Sor Left laid rope /Zor Right laid rope.Standard rope is 3 stranded.Four or more stranded rope requiresa‘heart’ in its centre.
CAUTION: WORKING LOADS ARE GUIDELINES ONLY AND FOR NON-CRITICAL APPLICATIONS
NominalSize(1)
Linear Density
(2)
New Rope Min. DesignFactorRange
(4)
Working Load
Diameter Size No. Breaking Strength (3)
LimitRanges (5)
, lbs.
In. (mm) Circ. (In.) Lbs./100' Lbs. 1/12 - 1/5
3/16 5 9/16 1.37 405 12 - 5 34 - 81
1/4 6 3/4 1.82 540 12 - 5 45 - 108
5/16 8 1 2.64 900 12 - 5 75 - 180
3/8 10 1-1/8 3.79 1215 12 - 5 101 - 243
7/16 11 1-1/4 4.87 1575 12 - 5 131 - 315
1/2 12 1-1/2 6.96 2385 12 - 5 199 - 477
9/16 14 1-3/4 9.63 3105 12 - 5 259 - 621
5/8 16 2 12.7 3960 12 - 5 330 - 792
3/4 18 2-1/4 15.9 4860 12 - 5 405 - 972
13/16 20 2-1/2 18.6 5850 12 - 5 488 - 1170
7/8 22 2-3/4 21.4 6930 12 - 5 578 - 1386
1 24 3 25.7 8100 12 - 5 675 - 1620
1-1/16 26 3-1/4 29.8 9450 12 - 5 788 - 1890
1-1/8 28 3-1/2 34.3 10800 12 - 5 900 - 2160
1-1/4 30 3-3/4 39.7 12150 12 - 5 1013 - 2430
1-3/8 32 4 45.6 13500 12 - 5 1125 - 2700
1-1/2 36 4-1/2 57.0 16650 12 - 5 1388 - 3330
1-5/8 40 5 71.1 20250 12 - 5 1688 - 4050
1-3/4 44 5-1/2 85.0 23850 12 - 5 1988 - 4770
2 48 6 102 27900 12 - 5 2325 - 5580
2-1/8 52 6-1/2 120 32400 12 - 5 2700 - 6480
2-1/4 56 7 139 36900 12 - 5 3075 - 7380
2-1/2 60 7-1/2 164 42300 12 - 5 3525 - 8460
2-5/8 64 8 182 46800 12 - 5 3900 - 9360
2-7/8 68 8-1/2 215 54900 12 - 5 4575 - 10980
3 72 9 230 57500 12 - 5 4792 - 11500
3-1/4 80 10 284 69500 12 - 5 5792 - 13900
3-5/8 88 11 349 81900 12 - 5 6825 - 16280
4 96 12 414 94500 12 - 5 7875 - 18900
(1) Diameter is approximate and is actually determined by linear density. See CI 1401 (current). See Safe Use Guidelines. (2) Linear density is considered standard. Tolerances are ±10% for 3/16" - 5/16" dia. inclusive; ±8% for 3/8" - 9/16" dia. inclusive; ±5% for 5/8" dia. and up. (3) New rope Minimum Breaking Strength (MBS) is based on data from a number of manufacturers and represents a value of 2 standard deviations below the mean, established by regression analysis. (4) For critical applications, refer to Safe Use Guidelines CI-1401(current). (5) Working Load Limit (WLL) is determined by dividing the new rope Minimum Breaking Strength by the selected Design factor. Important information is given in CI-1401(current).
NOTE: The working load of a rope shall be determined by dividing the minimum breaking strength by the design factor. For critical applications a design factor greater than 12 may be necessary. Users must determine the design factor as they are the only ones who can assess service conditions and establish operating procedures. If uncertain, contact a qualified engineering consultant for assistance. IN ALL CONDITIONS WHERE THERE IS RISK TO LIFE, THE WORKING LOAD SHOULD BE SUBSTANTIALLY REDUCED AND THE ROPE INSPECTED FREQUENTLY. Cf. Cordage Institute FIBER ROPE TECHNICAL INFORMATION AND APPLICATION MANUAL CIB 1.4 9701
CAUTION: USE OF WORKING LOADS
Because of the wide range of rope use, rope conditions, exposure to several factors affecting rope behavior, and the degree of risk to life and property involved, it is impossible to make blanket recommendations as to working loads. However, to provide guidelines, working loads are tabulated for rope in good condition with appropriate splices, in non-critical applications and under normal service conditions.
A higher working load may be selected only with expert knowledge of conditions and professional estimate of risk and if the rope has not been subject to dynamic loading or other excessive use.
You should not use a rope at high working loads if it has previously experienced excessive use, high dynamic loading, sustained loading for long periods, and exposure to high temperatures. For all such applications and for applications involving more severe exposure conditions, or for recommendations on special applications, consult an expert in the specific field where the rope is to be used.
Examples of ropes that are commonly subjected to dynamic loading are towing lines, life lines, hoisting ropes, safety lines, climbing ropes, etc.. In such applications, working loads as given do not apply.
Note: Rope tensile strengths are based on tests of new and unused rope of standard construction in accordance with the required specifications. The information is intended as a guide only. As mentioned, a thorough engineering analysis of all conditions of use should be made specific to the application to ensure that the ropes are well suited for the job. More info on Working Loads
Conforms with British Standard Specification 2052: 1989, Grade 1
SIZE Diameter
(Approximate) Per 30 meters
(Per 100 feet) Per 220 meters ( Per 720 feet)
MinimumBreaking
Load Circumference in. mm in. mm Lb. Kg. Lb. Kg. Lb. Kg. 5/8 16 3/16 5 1.2 0.55 8.7 4.0 430 195 7/8 22 1/4 7 2.4 1.07 17.0 7.7 820 370 1 25 5/16 8 3.7 1.67 26.5 12.0 1,200 545
Safety lines, Anchor & mooring lines for small crafts
Hoisting, Rigging, Nursery &All purpose lines
Mooring & Barge lines
Industrial slings for heavy loads
Tolerance : up to 14 mm = + / - 8% 16mm & above = + / - 5 %
Standard Coil Length : 220 mtrs Other lengths are available on request.
Colours : White.
Note: The minimum breaking load (MBL) should never be considered as the safe working load of the rope.
Breaking strength quoted relates to the new dry ropes in soft lay construction. In wet conditions these values may be lower.
Special colours and different packing.
DEBSONS MAXIFLEX
BECAUSE SAFETY AT SEA CANNOT BE COMPROMISED
Preferred by Ship Captains the World Over
The safety of men, machines and materials is of paramount importance to ship
captains It is non-negotiable; everything else is secondary, Such a situation demands
ropes of the highest strength, toughness in any condition, durability and reliability
DEBSONS MAXIFLEX ropes are engineered and manufactured just to meet these
requirements.
Superior to Nylon
Traditionally the shipping industry has been using nylon ropes for tough applications. However, DEBSONS
MAXIFLEX is now preferred by ship captains the world over as it scores over nylon in many key parameters.
Made from high tenacity polyester and high strength polypropylene yarn in a specific composition for higher
durability, DEBSONS MAXIFLEX is superior to nylon ropes in five critical ways:
DEBSONS MAXIFLEX offers approximately 20% additional breaking strength over nylon ropes
DEBSONS MAXIFLEXoffers better abrasion resistance compared to nylon ropes
DEBSONS MAXIFLEX retains strength in wet conditions; it sinks in water and doesn't gain weight.
DEBSONS MAXIFLEX ropes last longer due to high ultraviolet resistance.
DEBSONS MAXIFLEX provides higher returns at lower costs.
Key Features and Benefits
FEATURES BENEFITS
High retention of breaking strength after continuous
cyclic loading (highest TCII value under standard
lest conditions)
Highly durable;
long life proves cost effective
Special dual-fibre composition Excellent abrasion resistance and strength
Torque-free, balanced construction Retains flexibility after prolonged use. Excellent
economy
Law elongation Added safety due to low snap back
Retains breaking strength in wet conditions More cost effective than nylon
High energy absorption; heat generated from cyclic
loading dissipated due to composite fibre
construction
Prevents rope iron breaking due to melting
High ultraviolet stability, Unaffected by acids and
alkalis
Long life
DEBSONS MAXIFLEX is the result of painstaking efforts by a team of highly skilled and dedicated professionals at
our world-class in-house R&D facility. A rope with higher breaking resistance, even in wet conditions, low
snap back and good shock absorption properties, DEBSONS MAXIFLEX is a definite value-add to your business. The
biggest advantages of DEBSONS MAXIFLEX are its strength and its property of floatation.
So whether you are in the Shipping industry or in the Offshore mining industry, switch to DEBSONS MAXIFLEX.
And reap the benefits of technology put to smart use!
A new development by DEBSONS MAXIFLEX. After lot of R&D efforts and number of experiments, the product is
established, which carry all the advantages of Maxiflex Ropes with an improvement in breaking strength of
25%.
The salient features of these ropes are:
Improved Breaking Strength by 25% as compared to Maxiflex Rope of same size.
Maxima Polyester Combination rope having density lower than 1 hence floats on water.
Covered with Polyester yarn for good Abrasion Resistance
Good Shock Absorption Properties.
Low snap-back thus very safe for operation.
No drop in breaking strength even in wet conditions.
Specialty resin treated for longer life.
Advantages of MaxiGold Ropes
Does not sink in water, hence does not get entangled in propeller shaft.
Downsizing possible as breaking strength is higher by 25%.
Longer life as impregnated with high performance resins.
Specific Characteristics
Specific Gravity 0.98
Water Absorption <0.5%
Elongation at Break 16%
Wet Breaking Strength 100%
( * The maximum coil lengths for size 13 to 15 will be
lower than 220 meters.)
Specifications
DEBSONS MAXIFLEX
Size Coil Wt. kg B.S.
220 mtr. kgf
5" 216 42000
5.5" 262 50800
6" 310 60800
6.5" 365 72000
7" 422 83000
7.5" 486 94000
8" 552 106000
8.5" 623 120000
9" 700 135000
10" 862 164500
11" 1045 198500
12" 1243 234500
13" 1459* 275000
14" 1692* 316000
15" 1943* 360000
WWW.debsons.org
Nylon Double Braid is the preferred choice for applications requiring
high strength with excellent shock absorbing properties.
Double Braid has good resistance to abrasion,sunlight and chemicals. Due to its high elongation,nylon is almost always used in applications
involving shock loading such as anchor lines andmooring lines.Nylon Double Braid is delivered standard with anoverlay marine finish. Features & Benefits • High stretch • Excellent shock absorption • Soft hand • Torque free • Meets MIL-DTL-24050E Applications • Anchor lines • Mooring lines • Shock absorbers • Pendants • Towlines • Towed array stretchers
Plasma® 12 strand is the highest strength synthetic rope available.Plasma® 12 strand is manufactured from High Modulus Polyethylene(HMPE) that has been enhanced byCortland’spatented recrystallization process. This process isespecially effective in medium to large diameterropes where strengths are over 50% higher andcreep is significantly less than that of standardSpectra® 12 strand.Plasma® 12 strand is delivered standard with a polyurethane finish and is easily spliced using asimple lockstitch type splice, 4-3-2 or 5-4-3 TuckSplice. Its soft, torque free braided constructionprovides easy handling. Features & Benefits • Highest strength• Lowest stretch• Low creep• Soft hand•Torque-free• Easy splicing• Floats Applications • Replacement for wire rope • Vessel mooring lines • Inland river barge lines • Lifting slings• Recreational vehicle winch linesn • Utility winch and pulling lines
Technical Specification of Nylon-6 Chips
1.For Industrial Yarn,NylonFlim& Engineering plastic use
Items Unit Specification
Relative Viscoslty
3.45±0.05
Extractables wt% MAX 0.6
Moisture Content wt%
Melting Point ° 215
Color
Raw White,Bright
Size/Shape mm 2.0*2.5/cylinder
2.For Tire cord yarn use only
Items Unit Specification
Relative Viscoslty
3.45±0.05
Extractables wt% MAX 0.6
Moisture Content wt%
Melting Point ° 215
Heat Stabilizer Content PPM 850
Color
Raw White,Bright
Size/Shape mm 2.0*2.5/cylinder
Pachage Normally 25kg;Supersacks 750kgs
Back to Top
Yarn specification
1.For Tire cord&Chafer,Industrial fabrics
Items Unit 930dtex
(840D)
1400dtex
(1260D)
1870dtex
(1680D)
2100dtex
(1890D)
Breaking Strength N MIN 76 MIN 115 MIN 150 MIN 168
Elongation at break % MAX 23.5 MAX 23.5 MAX 23.5 MAX 23.5
Tire deviation dtex ±30 ±30 ±30 ±30
Variation coefficient of tire % MAX 0.74 MAX 0.74 MAX 0.74 MAX 0.74
Variation coefficient of breaking
strength % MAX 1.8 MAX 1.8 MAX 1.8 MAX 1.8
Variation coefficient of
elongation at break % MAX 4.5 MAX 4.5 MAX 4.5 MAX 4.5
Hot air shrinkage % MAX 7.5 MAX 7.5 MAX 7.5 MAX 7.5
150° 20Min
2.For Marine Rope,webbingBelts,Twine,Cordage,Fishing net
In 1962 my father Late KhagendraNathKar took the charge of the business. Gradually he divided the business within his cousin brothers also.
From 1985 I am steering this concern and dealing in all kinds of Synthetic & Natural Fibre, Yarn, Twine, Cord, Rope & Roves, Braid, Lace etc.
The company has an agreement for a yearly Contract Production with M/s Kalyani Spinning Mill Ltd. and M/s NUDDIA Jute Mill Ltd.
Some of our valued customers are ONGC, NHPC, NTPC, SAIL, Chambal Fertiliser&Bokaro Steel Corporation Ltd.
Last year we had a total sales of Rs.382.40 Crores out of which supply was about Rs.114 Crores and the rest was from dam construction.
We are currently working for NHPC which amounts to Rs.118 Crores out of which Rs.16 Crores is for supply of goods and the rest for
labourcontract.Another is for ONGC for drilling which worth Rs.15 Crores.
We also happily announce that in this instant we have achieved an export order of 40 ft. X 200 containers of jute fabrics & geo-tex net from the
Korea, Algeria & Turkey Hungry Italy
OUR UNITS ARE SASHI BHUSAN KAR PVT LTD.DEBSONS DIVERSIFIED PRODUCTS (PVT) LTD.
Your sincere early co-operation will not only help us to grab the order as well as to increase exports but
also will pave to solve the unemployment problems.
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