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Footwear Testing Equipments
Heat Resistance Tester
Usage/Application | Insulation Resistance |
Brand | Globe Enterprises |
Display | Digital |
Frequency | 50 Hz |
Power Source | Electric |
Standards | IS 9537 (Part 4)-1983 |
Voltage | 220 V |
Material | SS |
Digital Sole Adhesion Tester
Voltage | 220 V |
Material | MS |
Surface Finish | Mettalic |
Country of Origin | Made in India |
Capacity | Upto 60 kg /cm |
Brand | Globe Enterprises |
Display Type | Digital |
Upper Clamp Diameter | 35.5 mm |
The strength of adhesion of a sole to its upper is determined by measuring the force needed to pull off the sole from the upper. A suitable last is placed inside the shoe, which is then placed on a straight edge acting as a fulcrum for applying load on the joint of the sole and upper. The maximum load the sole can withstand before coming off is determined and reported as the sole adhesion strength. This test can be carried out either at the heel or at the toe of the shoe.
Related Standard
- 8085 (Part 1) ??? 1986 : Methods of Test ??? Footwear Part 1 : Dimensions, Fitting, Adhesion Test, Peel Test, Heat Resistance Test, and Ageing Test
- IS 11226 ??? 1993 : Leather Safety Footwear having Direct Molded Rubber Sole ??? Specification
- SATRA AM 4 ??? 1992 : Rapid Sole Adhesion Test ??? for Complete Footwear
Sole Abrasion Tester
Material | Stainless Steel |
Frequency | 50 Hz |
Voltage | 220 V |
Brand | Globe Enterprises |
Power Source | Electric |
Display Type | Digital |
Abrasive Cloth Width | 150 mm |
Test Specimen Dimension | 90 x 10 mm |
Test Specimen Load | 200 to 1000 g x 100 g |
Abrasive Drum Speed | 36 +- 4 RPM |
Belt Flex Tester
Type Of Testing Machines | Footwear Testing Machine |
Packaging Type | Wooden Box |
Display Type | Digital |
Frequency | 50 Hz |
Voltage | 220 V |
Brand | Globe Enterprises |
Driving Roller Diameter | 220 +- 10 mm |
Driving Roller Length | 170 +- 20 mm |
Flexing Roller Dimension | 90.0 +- 0.5 mm Diameter at Center / 87 +- 1.0 (For normal Soles) |
Number of Flex Per Minute | 90 +- 8 Flex Per Minute |
Out-soles of footwear or other flexing components may suffer cracking due to flexing in use. Cracks usually develop at points of high surface strain resulting from the design of the sole pattern, without there are being any cuts due to grit etc. to initiate them. The belt flex tester is designed to flex complete soles with their patterns intact in a way similar to flexing in actual use. Tests carried out using it provide a guide to the risk of such cracks developing during use.
Shoe Flex Tester
Frequency | 50 Hz |
Voltage | 230 V |
Power Source | Electric |
Material | SS |
Brand | Globe Enterprises |
Counter | 6 Digit |
Display Type | Digital |
Flexing Frequency | 200 Cycles/Minute |
Maximum Eccentricity | 80 mm |
Flexing Shoe Angle | 35 Degree (Maximum) |
The Shoe Flex Tester is used for determination of the ability of the full shoe to withstand the effect of flexing stresses produced on the different parts of the shoe. Although the various parts like uppers and soles of a shoe are tested separately for flexing endurance with the help of flexometer and Ross flex tester, the shoe flex tester gives results which are more related to the actual performance of the shoe as a whole.
Tensile Testing Machine
Material | Stainless Steel |
Phase | Single Phase |
Display Type | Digital |
Brand | Globe Enterprises |
Operating Mode | Semi-Automatic |
Frequency | 50 Hz |
Voltage | 220 V |
Elongation Accuracy | 0.001 mm |
Accuracy | 0.5% |
Toe Cap Impact Tester
Material | Stainless Steel |
Automation Grade | Semi-Automatic |
Type Of Testing Machines | Footwear Testing Machine |
Packaging Type | Wooden Box |
Display Type | Analog |
Brand | Globe Enterprises |
Voltage | 220 V |
Frequency | 50 Hz |
The toe portion of shoes used for industrial applications or used in mines shall be sufficiently rigid so as not to get pressed down beyond a specified limit when a heavy block falls down on it, thus preventing crushing of or injury to the toe of the user.
The toes of mines safety boots or industrial shoes are generally reinforced with a steel toecap to provide rigidity to them. Whether these toecaps are sufficient robust so as to fulfill their desired function is ascertained by subjecting the toecap or the full shoe to an impact by a falling weight using a suitable equipment. The toecap shall not press down beyond a specified limit during the impact.
Related Standard:
- IS1989(Part1)-1986
- IS 1989 (Part 2)-1986
- IS 3976-2003
- IS 5557-2004
- IS 5852-2004
- IS 11226-1993
Bennewart Flex Tester
Display Type | Digital |
Frequency | 50 Hz |
Voltage | 220 V |
Grade | Semi-Automatic |
Material | SS |
Brand | Globe Enterprises |
Flexing Angle | 90 Degree |
Bending Mandrel Diameter | 30 mm |
Operation Frequency | 125 to 150 Cycles |
Counter | 6 Digit |
Bennewart Flex Tester is intended to determine the resistance of a component of material to cut growth during repeated flexing. It can also be used to assess the effect of surface patterns on crack initiation and growth. This test is especially applicable to the out soles of footwear, but may also be used with certain other flexible components.
Vamp Flex Tester
Frequency | 50 Hz |
Voltage | AC 220-380 V |
Power Source | Electric |
Weight | 450 Kg |
Brand | Globe Enterprises |
Display Type | Digital |
Standards: IS 12240 (Part 8)-1988, IS 15298, ISO 8782 (Part 1)-1998, BS DIN EN 344-1993
Electrical Resistance Tester
Brand | Globe Enterprises |
Display | Digital |
Voltage | 220 V |
Inner Box Size | 90 x 60 x 50 cm (LxWxH) |
Temperature Range | 35-55 Degree C |
Current | 15 A |
Standard: IS 2745, IS 2925
Fatigue Resistance Tester
Brand | Globe Enterprises |
Display | Digital |
Voltage | 220 V |
Pendulum Length | 152 +- 2 mm |
Impact Bob Dimensions | 57 +- 1 mm Diameter, 20 +- 1 mm Thickness |
Pivoting Hub Diameter | 48 +- 1 mm |
Pendulum Shaft Diameter | 12.5 +- 1 mm |
Maximum Moment of Pendulum | 0.68 +- 0.02 Nm (6.94 +- 0.2 kg.cm) |
Striker Head Dimension | 6.0 +- .5 mm x 20 +- 1 mm x 35 +- 2 mm |
Striker Head Radius | 3.0 +- 0.5 mm |
Counter | 5 Digit Preset Type With Memory Backup & Key Reset |
The ability of elevated heels of ladies shoes and sandals to withstand repeated lateral impacts without breaking off is determined by holding the heel in a suitable holder and giving repeated impacts of specified impact energy near its lower edge. The test is continued till the time the heel fractures, or till a total number of 20,000 impacts is given to the heel under test. The number of impact after which the heel fractures gives a measure of the fatigue resistance of the heel under test.
Related Standard:
- ISO 19956 – 2004 : Footwear – Test Methods for Heels– Fatigue Resistance
- SATRA PM 21 – 1988 : Fatigue Test for Shoe Heels
Hot Contact Resistance Tester
Brand | Globe Enterprises |
Frequency | 50 Hz |
Voltage | 220 V |
Power Source | Electric |
Display Type | Digital |
Warranty | 12 Months |
Material | SS |
Dimension of Face Heating Bit | Square With Sides of 25.5 +- 0.1 mm |
Test Specimen Pressure | 20 +- 2 kPa |
Maximum Temperature of Heating Bit | 400 Degree C |
Bending Mandrel Diameter | 10 +- 1 mm |
Outsoles of footwear shall be resistant to hot contact. Determination of resistance to hot contact is carried out by placing a heated copper bit at a specified temperature on the test specimen under a specified pressure. After being subjected to the test for resistance to hot contact, rubber and polymeric outsoles shall not melt and shall not develop any cracks when bend around a mandrel of 10 mm diameter. When tested in the same way, leather outsoles shall not develop any cracks or charring which extend into the corium when bent around a mandrel of 10 mm diameter.
Standard:
- IS 15298 (Part 1) – 2002
Heat Insulation Tester
Material | Stainless Steel |
Packaging Type | Wooden Box |
Brand | Globe Enterprises |
Grade | Semi-Automatic |
Voltage | 220 V |
Accuracy (%) | 98% |
Display Type | Digital |
Sand Bath Dimension | 400 x 400 mm (+- 5 mm) |
Sand Bath Temperature | Adjustable Up to 250 Degree C |
Copper Disc Diameter | 15 +- 1 mm |
Copper Disc Thickness | 2.0 +- 0.1 mm |
Steel Ball Diameter | 5.0 +- 0.1 mm |
Steel Ball Mass | 4 Kg (Minimum) |
Soles of footwear intended for use under high temperature conditions shall be able to provide thermal insulation to the feet of the user. The ability of sole of any footwear to provide adequate thermal insulation is determined by placing the footwear under test in a sand bath maintained at a temperature of 150°C with the sand coming up to the top edge of its outsole and measuring the temperature on top of its insole after a period of thirty minutes.
Standards:
- IS 15298 (Part 1)-2002
- ISO8782 (Part1)-1998
- BS EN 344-1992
- DINEN344-1993
- ISO 20344-2004
Shoe Laces Wear Tester
Frequency | 50 Hz |
Voltage | 220 V |
Power Source | Electric |
Accuracy (%) | 98% |
Brand | Globe Enterprises |
Material | Stainless Steel |
Standard | SATRA PM 154-1992 |
Standard: SATRA PM 154-1992
Cold Insulation Tester
Frequency | 50 Hz |
Voltage | AC 220-380 V |
Accuracy (%) | 98% |
Precission Temperature Control | +/- 0.5 Degree Celsius |
Brand | Globe Enterprises |
Power Source | Electric |
Soles of footwear intended for use in low temperature conditions shall be able to provide low temperature insulation to the feet of the user so as not to become unbearably cold. The ability of sole of any footwear to provide adequate cold insulation is determined by placing the footwear under test inside a cold chamber maintained at -20°C and measuring the temperature of the insole.
Related Standard:
- Clause 4.3.5.1 : Cold Insulation of Sole Complex
- Clause 5.9 : Insulation against Cold
- BS EN 344 – 1992 : Requirements and Test Methods for Safety, Protective,
- DIN EN 344 – 1993 and Occupational Footwear for Professional Use
- Clause 5.9 : Determination of Insulation Against Cold
- ISO 20344 – 2004 : Personal Protective Equipment – Test Methods for Footwear
- Clause 5.13: Determination of Insulation
Footwear Flexometer
Frequency | 50 Hz |
Voltage | 230 V |
Brand | Globe Enterprises |
Phase | Single Phase |
Display Type | Digital |
Test Specimen Dimension | 70 x 45 mm |
Oscillation Grip Angle | 0.5-22.5 Degree |
Digital Lasto Meter
Display Type | Digital |
Brand | Globe Enterprises |
Material | SS |
Frequency | 50 Hz |
Voltage | 220 V |
Power Source | Electric |
Model Number | LP-9 |
Holding Grip Diameter | 25 mm |
Test Specimen Diameter | 44 mm |
Distention Measurement Range | 0 - 20 mm x 0.01 mm |
The determination of distension and strength of grains of any leather sample may conveniently be carried out with the help of the ball burst test.
In this test, a hemispherical hardened metallic tip is pressed against one face of the leather disc held in a suitable non-slipping grip and the force needed to make the tip pierce through the test specimen determined to evaluate the grain strength. The distention of leather at which the tip pierces through is also determined. The apparatus used for this evaluation is called Lastometer.