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Showing posts with label TTQC. Show all posts

Wednesday, 16 January 2019

January 16, 2019

Water Permeability and Waterproofing of Fabrics Test II Textile Fram


Definitions of Waterproofing and Water Permeability of Fabrics:-

In daily life, people often contact with water, which put forward waterproof requirements for all kinds of textile. The waterproof and permeable properties are two sides in one property of the fabric, which refers to the resistance to water wetting and permeation by the water of the fabrics.

 Definitions of Waterproofing and Water Permeability of Fabrics:- In daily life, people often contact with water, which put forward waterproof requirements for all kinds of textile. The waterproof and permeable properties are two sides in one property of the fabric, which refers to the resistance to water wetting and permeation by the water of the fabrics.        Influencing Factors of Fabric Permeability or Waterproof   The fabric permeability is the ability of liquid water to penetrate from one side to the other. There are three main factors affecting for the waterproof and water permeability of the fabric.  1 The wettability of fiber surface: The wettability of fiber is related to the compactness of fiber structure when the structure is close, the waterproof effect is better.  2 Fabric coating: Adopt waterproof, a multi-microporous coating can form a good waterproof, water permeability, and good air permeability coating fabric, mostly used in cloak or rain cloak, and so on.  3 Environment: For water conducting fabric, the relative humidity increases, the moisture absorption of the fiber increases, and the water conductivity of the fabric increases.  The Testing Categories of Fabric Waterproofing:- The main indexes of the fabric waterproof are dip water grade, hydro static pressure resistance grade, and water permeation capacity, and there are two kinds of test methods: spray method and hydrostatic pressure method. In order to measure the water permeability or waterproofing of fabrics, different methods are used depending on the actual use of the fabric, and the corresponding indexes are used to express the water permeability of fabrics.  Spray Method:- The spray method is to evaluate the waterproofing of fabric by comparing the standard sample of a various wetting degree to the water stains characteristics (through continuous spraying onto the sample after a fixed time) of the sample. The spray method is a simulation of the degree to which clothing gets wet when drizzled.  In the AATCC 22 test method, fix the sample with an iron ring with the diameter is 152.4mm, and the surface of the sample was flat and without a wrinkle. Spray the distilled water (250ml) on the sample of 150mm under the nozzle for 25~30s. Then compare the spray sample surface with the standard chart card and rated. The Spray tester was used in the test.   Hydrostatic Pressure Method:- Hydrostatic pressure refers to the water permeability of fabrics under a certain water pressure. It is suitable for all kinds of fabrics, including those treated with waterproofing. Hydrostatic pressure method is used to measure the waterproofing of fabric, there are static pressure method and dynamic pressure method. Static pressure is used for water-conducting fabrics, and dynamic pressure is used for coated or compact fabrics.  In the AATCC 127 test method, cut at least three samples with an area of 200mm*200mm along the diagonal direction of the tested sample. The waterproofing of the two sides of the sample is different, which should be marked. Test with distilled water at (21±2)℃ and the test area is 100cm². The water pressure is increasing at a constant rate, if there are 3 water droplets in different places on the sample, the test will be finished (however, if the water droplets exudated within the 3mm of the sample clip, it is ineffective). The results are the average values of three samples under the same conditions. The larger the test value, the greater pressure required for the water seepage, and the better its waterproofing. The hydrostatic pressure tester was used in the test.  Wicking Method:- The wicking measurement is the most commonly used and the simplest method for measuring the water absorption of fabrics. The test sample is usually cut into a long strip, one end of the test sample is suspended on the iron frame, the other end is in contact with the water surface (or immersed in water at a certain height). After a certain time, measure the height of the water climbing through the pores of the fabric fiber. Fabric with good water conductivity, strong water absorption, fast water absorption, high climbing height per unit time.  If in the testing process, because of the fabric structure and the yarn color, the water climbing process is not obvious, it is not easy to observe by the naked eye, we can add a little coloring agent in the water.  Rain Test Method:- Rain test method is to simulate the waterproof of fabrics exposed to air when heavy rain. This method is applicable to any fabric with or without waterproof treatment. The principle: wrap the test sample around the weighing absorbent paper and weigh the absorbent paper again after the test. The difference between the two times of weight is the water permeability of the sample.  In the AATCC 35 test method, place a standard absorbent paper of 15.2cm*15.2cm at the back of the sample, weight the standard absorbent paper, and accurate to 0.1g. On the vertical rigid surface, clamp the sample on the sample holder, place it in the middle of the spray, 30.5cm away from the nozzle, then spray the water flow at (27±1)℃ on the sample horizontally for 5 min. After spraying, remove the absorbent paper carefully and weigh it quickly to 0.1g. Calculate the weight of the paper during spray, and take the average value of the test data. The rain tester was used in the test.  Notice:- In practice, different fabrics use different testing methods to better measure the water permeability or waterproofing of fabrics  1. Wet fabric cannot be tested by hydrostatic pressure, but can be tested by spray method.  2. Because of its structure, the water permeability of coated fabric can be tested by spray, rain and hydrostatic pressure, but not by wicking method.  3. In general, in the wicking method, it is found that the water absorbency of knitted fabrics is better than that of woven fabrics.
Water Permeability and Waterproofing 
T

Influencing Factors of Fabric Permeability or Waterproof


The fabric permeability is the ability of liquid water to penetrate from one side to the other. There are three main factors affecting for the waterproof and water permeability of the fabric.
1 The wettability of fiber surface: The wettability of fiber is related to the compactness of fiber structure when the structure is close, the waterproof effect is better.
2 Fabric coating: Adopt waterproof, a multi-microporous coating can form a good waterproof, water permeability, and good air permeability coating fabric, mostly used in cloak or rain cloak, and so on.
3 Environment: For water conducting fabric, the relative humidity increases, the moisture absorption of the fiber increases, and the water conductivity of the fabric increases.

The Testing Categories of Fabric Waterproofing:-

The main indexes of the fabric waterproof are dip water grade, hydro static pressure resistance grade, and water permeation capacity, and there are two kinds of test methods: spray method and hydrostatic pressure method. In order to measure the water permeability or waterproofing of fabrics, different methods are used depending on the actual use of the fabric, and the corresponding indexes are used to express the water permeability of fabrics.

Spray Method:-

The spray method is to evaluate the waterproofing of fabric by comparing the standard sample of a various wetting degree to the water stains characteristics (through continuous spraying onto the sample after a fixed time) of the sample. The spray method is a simulation of the degree to which clothing gets wet when drizzled.
In the AATCC 22 test method, fix the sample with an iron ring with the diameter is 152.4mm, and the surface of the sample was flat and without a wrinkle. Spray the distilled water (250ml) on the sample of 150mm under the nozzle for 25~30s. Then compare the spray sample surface with the standard chart card and rated. The Spray tester was used in the test.

 Hydrostatic Pressure Method:-

Hydrostatic pressure refers to the water permeability of fabrics under a certain water pressure. It is suitable for all kinds of fabrics, including those treated with waterproofing. Hydrostatic pressure method is used to measure the waterproofing of fabric, there are static pressure method and dynamic pressure method. Static pressure is used for water-conducting fabrics, and dynamic pressure is used for coated or compact fabrics.
In the AATCC 127 test method, cut at least three samples with an area of 200mm*200mm along the diagonal direction of the tested sample. The waterproofing of the two sides of the sample is different, which should be marked. Test with distilled water at (21±2)℃ and the test area is 100cm². The water pressure is increasing at a constant rate, if there are 3 water droplets in different places on the sample, the test will be finished (however, if the water droplets exudated within the 3mm of the sample clip, it is ineffective). The results are the average values of three samples under the same conditions. The larger the test value, the greater pressure required for the water seepage, and the better its waterproofing. The hydrostatic pressure tester was used in the test.

Wicking Method:-

The wicking measurement is the most commonly used and the simplest method for measuring the water absorption of fabrics. The test sample is usually cut into a long strip, one end of the test sample is suspended on the iron frame, the other end is in contact with the water surface (or immersed in water at a certain height). After a certain time, measure the height of the water climbing through the pores of the fabric fiber. Fabric with good water conductivity, strong water absorption, fast water absorption, high climbing height per unit time.
If in the testing process, because of the fabric structure and the yarn color, the water climbing process is not obvious, it is not easy to observe by the naked eye, we can add a little coloring agent in the water.

Rain Test Method:-

Rain test method is to simulate the waterproof of fabrics exposed to air when heavy rain. This method is applicable to any fabric with or without waterproof treatment. The principle: wrap the test sample around the weighing absorbent paper and weigh the absorbent paper again after the test. The difference between the two times of weight is the water permeability of the sample.
In the AATCC 35 test method, place a standard absorbent paper of 15.2cm*15.2cm at the back of the sample, weight the standard absorbent paper, and accurate to 0.1g. On the vertical rigid surface, clamp the sample on the sample holder, place it in the middle of the spray, 30.5cm away from the nozzle, then spray the water flow at (27±1)℃ on the sample horizontally for 5 min. After spraying, remove the absorbent paper carefully and weigh it quickly to 0.1g. Calculate the weight of the paper during spray, and take the average value of the test data. The rain tester was used in the test.

Notice:-

In practice, different fabrics use different testing methods to better measure the water permeability or waterproofing of fabrics
1. Wet fabric cannot be tested by hydrostatic pressure, but can be tested by spray method.
2. Because of its structure, the water permeability of coated fabric can be tested by spray, rain and hydrostatic pressure, but not by wicking method.
3. In general, in the wicking method, it is found that the water absorbency of knitted fabrics is better than that of woven fabrics.

Saturday, 5 January 2019

January 05, 2019

How To Elmendorf Tear Tester TF140C II Textile Farm

             


              Elmendorf Tear Tester TF140C

            How To Elmendorf Tear Tester TF140C   Elmendorf Tear tester, a computer controlled falling-pendulum instrument, to decide the ballistic tearing strength of textiles, plastics, paper or board. Elmendorf Tensile Testing Machine complies with ASTM D1424/1922/5734, ISO 1974/9290/6383-2, BS ISO 13937, etc. The tearing tester is further enhanced and supported by the easy to use the computer. Elmendorf Tear Strength Tester will show its good performance when you do the Elmendorf tear test.  Test Description Application Product Elmendorf tearing strength tester (patented product), is used to determine the ballistic tearing strength of paper, textiles, plastics or board. Elmendorf tear tester (protear) enables rapid determination of the dynamic resistance of materials designed to be subject to strong shearing loads (e.g. fabrics) or liable to be damaged by sharp or heavy objects (e.g. paper bags). Subsequently, the test was naturally adopted for all materials in the form of sheet or films, cardboard, cloth, knitted fabrics, plastic films, aluminum foil, non-woven fabrics, complex flexible packaging etc. Elmendorf tensile testing machine is not applied to sparse fabric or stretch materials which the tearing direction might be the shift in the test. Compressed air of 0.4~ 0.7 mPa is required. Features  Works in accordance with all known test standards.  The model is the only one that covers the most completed test range from 0 to 12800cN.  RS-232 data output, equipped with Lenovo computer and elmendorf tear test procedure, and Panasonic printer.  The tensile testing equipment can be controlled by the large graphic touch panel without computer and software.  Automatic specimen clamping and notching.  Repeatable, pneumatic specimen gripping system guarantees sufficient clamping pressure to avoid all slipping phenomena, thus ensuring perfect reproducibility of the experimental conditions.  Automatic compensation for friction and leveling errors, no slave pointer, therefore no friction, alignment and maintenance problems. Specifications  Capacity: 0-12800 grams (0 ~ 128N)  Pendulum Range(cN): 0~ 1600, 0 ~ 3200, 0 ~ 6400, 0 ~ 12800.  Accuracy: 0.2% of pendulum range.  Unit: GF, MN, CN, CP, LB. Included Accessories.   TESTEX Elmendorf Tearing Test software.  Complete with work pendulums 1600cN/g (3.5lb), 3200cN/g (7.0lb), 6400cN/g (14.0lb), 12800cN/g(28.0lb).  2 pcs of Cutting blades.  1 pc of Specimen cutting template Weight 105 kg Power 220/110 V 50/60 Hz 0.5-0.7 Mpa Dimensions Width: 560 mm Depth: 420 mm Height: 530 mm  22 inch  17 inch  21 inch Standards ASTM D1424 ASTM D1922 ASTM 5734 ISO 1974 ISO 6383-2 ISO 9290 BS ISO 13937 BS 3424 BS 4253 BS 4468 DIN 53862 DIN 53128 NEXT 17 M&S P29 INDA IST 100.1 AFNOR G 07-149 GB/T 3917.1 FZ/T 60006 FZ/T 7500    Test Method   What is the Tear of Fabric? Elmendorf tear definition refers to the phenomenon that yarn inside the fabric breaks one by one and tear the fabric into a crack when a part of the fabric edge is subjected to concentrated loading. The Elmendorf tear strength of textiles is affected not only by the fabric’s properties but also by every finishing process of fiber. According to the actual development requirements of textiles, the American Society for Testing Materials (ASTM) has formulated a series of textile tearing strength standards (ASTM D1709, ASTM D1938, ASTM D1004 PDF, ASTM D1922 PDF, ISO 6388-2 PDF), and ISO followed these standards. The tear usually occurs during the use of military uniforms, sails, tents, umbrellas, hammocks and so on, and tear strength is the greatest ability to resist tearing during the use of fabric. Elmendorf tear test is a common method for measuring tear strength, it is used to test various international standards according to the Elmendorf tear test formula. Elmendorf test can be used not only for testing the tear strength of the fabric, but also for testing the tear strength of some plastics and cartons. Elmendorf Tear Test Procedure 1. Prepare samples: Make corresponding samples according to test standards. 2. Adjusting pressure gauge: Check whether the pressure gauge value is in the range of 0.6 ±1 MPa, otherwise, adjust the pressure relief valve to meet the requirements. Start the Elmendorf tearing tester, enter the working interface and set the corresponding parameters. 3. Zero adjustments and calibration: Adjust the Elmendorf tearing tester calibration according to the test manual, and adjust the angle, then return to the main page to start testing. 4. Sample test: Select suitable hammer to test all samples and save Elmendorf tear test results. (For detailed steps, please refer to the Elmendorf tear test manual of random incidental) Notice 1. Before using, place the hammer in place, tighten the jam hand wheels. 2. When the instrument works, keep your hands and head beyond the turning area of Handle 11; the handle should not touch any obstacles. 3. When the instrument has been unused for a long time, you should swing it for more times before use, and proceed with calibration operations. 4. Be sure to have the swing device in a locked state when moving the instrument. 5. No strong electromagnetic interference around. 6. Clean the Elmendorf tear test units when the instrument is not used, store the pendulum properly to avoid collision, friction or corrosion. The machines for tear strength are in hot sales now! Welcome to contact us if you want to know Elmendorf tear tester price and how to use Elmendorf tear tester.
 Elmendorf Tear Tester TF140C


Elmendorf Tear tester, a computer controlled falling-pendulum instrument, to decide the ballistic tearing strength of textiles, plastics, paper or board. Elmendorf Tensile Testing Machine complies with ASTM D1424/1922/5734, ISO 1974/9290/6383-2, BS ISO 13937, etc. The tearing tester is further enhanced and supported by the easy to use the computer. Elmendorf Tear Strength Tester will show its good performance when you do the Elmendorf tear test.

 

Test Description          



Application.

Product Elmendorf tearing strength tester (patented product), is used to determine the ballistic tearing strength of paper, textiles, plastics or board.

Elmendorf tear tester (protea) enables rapid determination of the dynamic resistance of materials designed to be subject to strong shearing loads (e.g. fabrics) or liable to be damaged by sharp or heavy objects (e.g. paper bags). Subsequently, the test was naturally adopted for all materials in the form of sheet or films, cardboard, cloth, knitted fabrics, plastic films, aluminum foil, non-woven fabrics, complex flexible packaging etc.

Elmendorf tensile testing machine is not applied to sparse fabric or stretch materials which the tearing direction might be the shift in the test.

Compressed air of 0.4~ 0.7 mPa is required.

            How To Elmendorf Tear Tester TF140C   Elmendorf Tear tester, a computer controlled falling-pendulum instrument, to decide the ballistic tearing strength of textiles, plastics, paper or board. Elmendorf Tensile Testing Machine complies with ASTM D1424/1922/5734, ISO 1974/9290/6383-2, BS ISO 13937, etc. The tearing tester is further enhanced and supported by the easy to use the computer. Elmendorf Tear Strength Tester will show its good performance when you do the Elmendorf tear test.  Test Description Application Product Elmendorf tearing strength tester (patented product), is used to determine the ballistic tearing strength of paper, textiles, plastics or board. Elmendorf tear tester (protear) enables rapid determination of the dynamic resistance of materials designed to be subject to strong shearing loads (e.g. fabrics) or liable to be damaged by sharp or heavy objects (e.g. paper bags). Subsequently, the test was naturally adopted for all materials in the form of sheet or films, cardboard, cloth, knitted fabrics, plastic films, aluminum foil, non-woven fabrics, complex flexible packaging etc. Elmendorf tensile testing machine is not applied to sparse fabric or stretch materials which the tearing direction might be the shift in the test. Compressed air of 0.4~ 0.7 mPa is required. Features  Works in accordance with all known test standards.  The model is the only one that covers the most completed test range from 0 to 12800cN.  RS-232 data output, equipped with Lenovo computer and elmendorf tear test procedure, and Panasonic printer.  The tensile testing equipment can be controlled by the large graphic touch panel without computer and software.  Automatic specimen clamping and notching.  Repeatable, pneumatic specimen gripping system guarantees sufficient clamping pressure to avoid all slipping phenomena, thus ensuring perfect reproducibility of the experimental conditions.  Automatic compensation for friction and leveling errors, no slave pointer, therefore no friction, alignment and maintenance problems. Specifications  Capacity: 0-12800 grams (0 ~ 128N)  Pendulum Range(cN): 0~ 1600, 0 ~ 3200, 0 ~ 6400, 0 ~ 12800.  Accuracy: 0.2% of pendulum range.  Unit: GF, MN, CN, CP, LB. Included Accessories.   TESTEX Elmendorf Tearing Test software.  Complete with work pendulums 1600cN/g (3.5lb), 3200cN/g (7.0lb), 6400cN/g (14.0lb), 12800cN/g(28.0lb).  2 pcs of Cutting blades.  1 pc of Specimen cutting template Weight 105 kg Power 220/110 V 50/60 Hz 0.5-0.7 Mpa Dimensions Width: 560 mm Depth: 420 mm Height: 530 mm  22 inch  17 inch  21 inch Standards ASTM D1424 ASTM D1922 ASTM 5734 ISO 1974 ISO 6383-2 ISO 9290 BS ISO 13937 BS 3424 BS 4253 BS 4468 DIN 53862 DIN 53128 NEXT 17 M&S P29 INDA IST 100.1 AFNOR G 07-149 GB/T 3917.1 FZ/T 60006 FZ/T 7500    Test Method   What is the Tear of Fabric? Elmendorf tear definition refers to the phenomenon that yarn inside the fabric breaks one by one and tear the fabric into a crack when a part of the fabric edge is subjected to concentrated loading. The Elmendorf tear strength of textiles is affected not only by the fabric’s properties but also by every finishing process of fiber. According to the actual development requirements of textiles, the American Society for Testing Materials (ASTM) has formulated a series of textile tearing strength standards (ASTM D1709, ASTM D1938, ASTM D1004 PDF, ASTM D1922 PDF, ISO 6388-2 PDF), and ISO followed these standards. The tear usually occurs during the use of military uniforms, sails, tents, umbrellas, hammocks and so on, and tear strength is the greatest ability to resist tearing during the use of fabric. Elmendorf tear test is a common method for measuring tear strength, it is used to test various international standards according to the Elmendorf tear test formula. Elmendorf test can be used not only for testing the tear strength of the fabric, but also for testing the tear strength of some plastics and cartons. Elmendorf Tear Test Procedure 1. Prepare samples: Make corresponding samples according to test standards. 2. Adjusting pressure gauge: Check whether the pressure gauge value is in the range of 0.6 ±1 MPa, otherwise, adjust the pressure relief valve to meet the requirements. Start the Elmendorf tearing tester, enter the working interface and set the corresponding parameters. 3. Zero adjustments and calibration: Adjust the Elmendorf tearing tester calibration according to the test manual, and adjust the angle, then return to the main page to start testing. 4. Sample test: Select suitable hammer to test all samples and save Elmendorf tear test results. (For detailed steps, please refer to the Elmendorf tear test manual of random incidental) Notice 1. Before using, place the hammer in place, tighten the jam hand wheels. 2. When the instrument works, keep your hands and head beyond the turning area of Handle 11; the handle should not touch any obstacles. 3. When the instrument has been unused for a long time, you should swing it for more times before use, and proceed with calibration operations. 4. Be sure to have the swing device in a locked state when moving the instrument. 5. No strong electromagnetic interference around. 6. Clean the Elmendorf tear test units when the instrument is not used, store the pendulum properly to avoid collision, friction or corrosion. The machines for tear strength are in hot sales now! Welcome to contact us if you want to know Elmendorf tear tester price and how to use Elmendorf tear tester.
How To Elmendorf Tear Tester TF140C 

Features


Ø     Works in accordance with all known test standards.

Ø     The model is the only one that covers the most completed test range from 0 to 12800cN.

Ø     RS-232 data output, equipped with Lenovo computer and Elmendorf tear test procedure, and Panasonic printer.

Ø     The tensile testing equipment can be controlled by the large graphic touch panel without computer and software.

Ø     Automatic specimen clamping and notching.

Ø     Repeatable, pneumatic specimen gripping system guarantees sufficient clamping pressure to avoid all slipping phenomena, thus ensuring perfect reproducibility of the experimental conditions.

Ø     Automatic compensation for friction and leveling errors, no slave pointer, therefore no friction, alignment and maintenance problems.


Specifications


Ø     Capacity: 0-12800 grams (0 ~ 128N)

Ø     Pendulum Range(cN): 0~ 1600, 0 ~ 3200, 0 ~ 6400, 0 ~ 12800.

Ø     Accuracy: 0.2% of pendulum range.

Ø     Unit: GF, MN, CN, CP, LB.


Included Accessories.

 

Ø     TESTEX Elmendorf Tearing Test software.

Ø     Complete with work pendulums
1600cN/g (3.5lb), 3200cN/g (7.0lb), 6400cN/g (14.0lb), 12800cN/g(28.0lb).

Ø     2 pcs of Cutting blades.

Ø     1 pc of Specimen cutting template.


Weight

105 kg


Power

220/110 V

50/60 Hz

0.5-0.7 Mpa


Dimensions

Width:

560 mm

Depth:

420 mm

Height:

530 mm

 

22 inch

 

17 inch

 

21 inch


Standards

ASTM D1424

ASTM D1922

ASTM 5734

ISO 1974

ISO 6383-2

ISO 9290

BS ISO 13937

BS 3424

BS 4253

BS 4468

DIN 53862

DIN 53128

NEXT 17

M&S P29

INDA IST 100.1

AFNOR G 07-149

GB/T 3917.1

FZ/T 60006

FZ/T 7500

 

 

   

  Test Method

 

Ø    What is the Tear of Fabric?

Elmendorf tear definition refers to the phenomenon that yarn inside the fabric breaks one by one and tear the fabric into a crack when a part of the fabric edge is subjected to concentrated loading.

The Elmendorf tear strength of textiles is affected not only by the fabric’s properties but also by every finishing process of fiber. According to the actual development requirements of textiles, the American Society for Testing Materials (ASTM) has formulated a series of textile tearing strength standards (ASTM D1709, ASTM D1938, ASTM D1004 PDF, ASTM D1922 PDF, ISO 6388-2 PDF), and ISO followed these standards.

The tear usually occurs during the use of military uniforms, sails, tents, umbrellas, hammocks and so on, and tear strength is the greatest ability to resist tearing during the use of fabric. Elmendorf tear test is a common method for measuring tear strength, it is used to test various international standards according to the Elmendorf tear test formula. Elmendorf test can be used not only for testing the tear strength of the fabric, but also for testing the tear strength of some plastics and cartons.

            How To Elmendorf Tear Tester TF140C   Elmendorf Tear tester, a computer controlled falling-pendulum instrument, to decide the ballistic tearing strength of textiles, plastics, paper or board. Elmendorf Tensile Testing Machine complies with ASTM D1424/1922/5734, ISO 1974/9290/6383-2, BS ISO 13937, etc. The tearing tester is further enhanced and supported by the easy to use the computer. Elmendorf Tear Strength Tester will show its good performance when you do the Elmendorf tear test.  Test Description Application Product Elmendorf tearing strength tester (patented product), is used to determine the ballistic tearing strength of paper, textiles, plastics or board. Elmendorf tear tester (protear) enables rapid determination of the dynamic resistance of materials designed to be subject to strong shearing loads (e.g. fabrics) or liable to be damaged by sharp or heavy objects (e.g. paper bags). Subsequently, the test was naturally adopted for all materials in the form of sheet or films, cardboard, cloth, knitted fabrics, plastic films, aluminum foil, non-woven fabrics, complex flexible packaging etc. Elmendorf tensile testing machine is not applied to sparse fabric or stretch materials which the tearing direction might be the shift in the test. Compressed air of 0.4~ 0.7 mPa is required. Features  Works in accordance with all known test standards.  The model is the only one that covers the most completed test range from 0 to 12800cN.  RS-232 data output, equipped with Lenovo computer and elmendorf tear test procedure, and Panasonic printer.  The tensile testing equipment can be controlled by the large graphic touch panel without computer and software.  Automatic specimen clamping and notching.  Repeatable, pneumatic specimen gripping system guarantees sufficient clamping pressure to avoid all slipping phenomena, thus ensuring perfect reproducibility of the experimental conditions.  Automatic compensation for friction and leveling errors, no slave pointer, therefore no friction, alignment and maintenance problems. Specifications  Capacity: 0-12800 grams (0 ~ 128N)  Pendulum Range(cN): 0~ 1600, 0 ~ 3200, 0 ~ 6400, 0 ~ 12800.  Accuracy: 0.2% of pendulum range.  Unit: GF, MN, CN, CP, LB. Included Accessories.   TESTEX Elmendorf Tearing Test software.  Complete with work pendulums 1600cN/g (3.5lb), 3200cN/g (7.0lb), 6400cN/g (14.0lb), 12800cN/g(28.0lb).  2 pcs of Cutting blades.  1 pc of Specimen cutting template Weight 105 kg Power 220/110 V 50/60 Hz 0.5-0.7 Mpa Dimensions Width: 560 mm Depth: 420 mm Height: 530 mm  22 inch  17 inch  21 inch Standards ASTM D1424 ASTM D1922 ASTM 5734 ISO 1974 ISO 6383-2 ISO 9290 BS ISO 13937 BS 3424 BS 4253 BS 4468 DIN 53862 DIN 53128 NEXT 17 M&S P29 INDA IST 100.1 AFNOR G 07-149 GB/T 3917.1 FZ/T 60006 FZ/T 7500    Test Method   What is the Tear of Fabric? Elmendorf tear definition refers to the phenomenon that yarn inside the fabric breaks one by one and tear the fabric into a crack when a part of the fabric edge is subjected to concentrated loading. The Elmendorf tear strength of textiles is affected not only by the fabric’s properties but also by every finishing process of fiber. According to the actual development requirements of textiles, the American Society for Testing Materials (ASTM) has formulated a series of textile tearing strength standards (ASTM D1709, ASTM D1938, ASTM D1004 PDF, ASTM D1922 PDF, ISO 6388-2 PDF), and ISO followed these standards. The tear usually occurs during the use of military uniforms, sails, tents, umbrellas, hammocks and so on, and tear strength is the greatest ability to resist tearing during the use of fabric. Elmendorf tear test is a common method for measuring tear strength, it is used to test various international standards according to the Elmendorf tear test formula. Elmendorf test can be used not only for testing the tear strength of the fabric, but also for testing the tear strength of some plastics and cartons. Elmendorf Tear Test Procedure 1. Prepare samples: Make corresponding samples according to test standards. 2. Adjusting pressure gauge: Check whether the pressure gauge value is in the range of 0.6 ±1 MPa, otherwise, adjust the pressure relief valve to meet the requirements. Start the Elmendorf tearing tester, enter the working interface and set the corresponding parameters. 3. Zero adjustments and calibration: Adjust the Elmendorf tearing tester calibration according to the test manual, and adjust the angle, then return to the main page to start testing. 4. Sample test: Select suitable hammer to test all samples and save Elmendorf tear test results. (For detailed steps, please refer to the Elmendorf tear test manual of random incidental) Notice 1. Before using, place the hammer in place, tighten the jam hand wheels. 2. When the instrument works, keep your hands and head beyond the turning area of Handle 11; the handle should not touch any obstacles. 3. When the instrument has been unused for a long time, you should swing it for more times before use, and proceed with calibration operations. 4. Be sure to have the swing device in a locked state when moving the instrument. 5. No strong electromagnetic interference around. 6. Clean the Elmendorf tear test units when the instrument is not used, store the pendulum properly to avoid collision, friction or corrosion. The machines for tear strength are in hot sales now! Welcome to contact us if you want to know Elmendorf tear tester price and how to use Elmendorf tear tester.


Elmendorf Tear Test Procedure


1. Prepare samples: Make corresponding samples according to test standards.

2. Adjusting pressure gauge: Check whether the pressure gauge value is in the range of 0.6 ±1 MPa, otherwise, adjust the pressure relief valve to meet the requirements. Start the Elmendorf tearing tester, enter the working interface and set the corresponding parameters.

3. Zero adjustments and calibration: Adjust the Elmendorf tearing tester calibration according to the test manual, and adjust the angle, then return to the main page to start testing.

4. Sample test: Select suitable hammer to test all samples and save Elmendorf tear test results.

(For detailed steps, please refer to the Elmendorf tear test manual of random incidental)


Notice


1. Before using, place the hammer in place, tighten the jam hand wheels.

2. When the instrument works, keep your hands and head beyond the turning area of Handle 11; the handle should not touch any obstacles.

3. When the instrument has been unused for a long time, you should swing it for more times before use, and proceed with calibration operations.

4. Be sure to have the swing device in a locked state when moving the instrument.

5. No strong electromagnetic interference around.

6. Clean the Elmendorf tear test units when the instrument is not used, store the pendulum properly to avoid collision, friction or corrosion.

The machines for tear strength are in hot sales now! Welcome to contact us if you want to know Elmendorf tear tester price and how to use Elmendorf tear tester.

 


 

Wednesday, 16 May 2018

May 16, 2018

How To Make Different Sed in washing- Textile Farm

Today, I will write a few things about the change in the message of SED.

Different technicians say, Sed is 18-20 / 19-20, but is it true in textile language?


            The color shed chang / stain is measured with grayscale, and the highest and the lowest readings are - 1-5, so 18/19-20.


 See picture:- 

Most of the wash/dyeing technician says the color difference to the standard is like- 18-20/19-20, to measure the color change of the outcome verses to the standard. But where color changing is actually measured using gray scale where no 19-20/18-20 remaining there. there is only remaining 4-5/ 5, or like 4 / 3-4 ... etc.  



There are two different type of gray scales in the market, one is  Color changing , another one is  Color staining.

Standards: -  AATCC standard and ISO/SDC-UK standard. 

Most of the major larger buyer recommends : AATCC standard gray scale for there test related work. 

Anyway, we should understand which one is correct and which one we should use to say the color stage unit. 




Once I have also found some of the wash technician and lab technician wrote to me via email that the color fastness to Rubbing is : 2.3 of a garment. I wondered!! haha, its funny, how could they write it to me... they are from a buying house and they should know the standards. it should be 2-3. (viewers, please check the gray scale above) there is no 2.3!!

Thanks for reading.

Author-
K M Zahidur Rahman
Executive -R&D
Hameem Group