Bending test Sample Clauses

Bending test. The test shall be performed on a sample of complete cable. The sample shall be bent around a test mandrel at room temperature for at least one complete turn. It shall then be unwound and the process shall be repeated after turning the sample around its axis 180 deg. The cycle of these operations shall then be repeated twice more, the diameter of the mandrel shall be 10(D+d) Where D= Actual Diameter of the cable (i.e. the minimum circumscribing circle diameter, mm). d= Actual diameter of the conductor In mm. No cracks visible to the naked eye are allowed

Bending test. The test has to be carried out in compliance with the method described in standard ISO15500-17:2012

Bending test. The bending properties of welded steel in the inner vessel shall be tested in accordance with EN 910:1996.

Bending test. An empty hose, at a length of approximately 3.5 m must be able to withstand 3,000 times the hereafter prescribed alternating-bending-test without breaking. After the test the hose must be capable of withstanding the test-pressure as mentioned in paragraph 2.5.4.2. The test shall be performed on both new hose and after ageing according to ISO 188 as prescribed in paragraph 2.4.2.3. and subsequently to ISO 1817 as prescribed in paragraph 2.4.2.2.

Bending test. 3.5.4.1. An empty hose, at a length of approximately 3.5 m must be able to withstand 3,000 times the hereafter prescribed alternating-bending-test without breaking. After the test the hose must be capable of withstanding the test pressure as mentioned in paragraph 3.5.5.2. Figure 3 (example only) mass propulsion mechanism a 1 2m 3.5.4.2. The testing machine (see Figure 3) shall consist of a steel frame, provided with two wooden wheels, with a rim-width of approximately 130 mm. The circumference of the wheels must be grooved for the guidance of the hose. The radius of the wheels, measured to the bottom of the groove, must be 102 mm. The longitudinal median planes of both wheels must be in the same vertical plane. The distance between the wheel-centres must be vertical 241 mm and horizontal 102 mm. Each wheel must be able to rotate freely round its pivot-centre. A propulsion mechanism pulls the hose over the wheels at a speed of four complete motions per minute. 3.5.4.3. The hose shall be S-shape-like installed over the wheels (see Figure 3). The end, that runs over the upper wheel, shall be furnished with a sufficient mass as to achieve a complete snuggling of the hose against the wheels. The part that runs over the lower wheel is attached to the propulsion mechanism. The mechanism must be so adjusted, that the hose travels a total distance of

Bending test. The replacement steering wheel is exposed to a temperature of at least - 15°C ± 2°C for 16 hours. The replacement steering wheel is then mounted with its hub on a rigid shaft and the steering wheel rim is subjected to a static loading of 70 ▇▇▇ ± 0.5 ▇▇▇ acting perpendicular to the plane of the rim. The test loading must be applied on the rim and between two spokes that confine the greatest angle. This test may not leave any permanent deformation on the rim of the replacement steering wheel that would be greater than 8 per cent of the steering wheel diameter. There must be no signs of any cracks or fractures, which will affect the operational safety of the steering wheel.

Bending test. 3.5.4.1. An empty hose, at a length of approximately 3.5 m must be able to withstand 3,000 times the hereafter prescribed alternating-bending-test without breaking. After the test the hose must be capable of withstanding the test pressure as mentioned in paragraph 3.5.5.2. Figure 3 (example only) a 1 2m (a = 102 mm; b= 241 mm) 3.5.4.2. The testing machine (see Figure 3) shall consist of a steel frame, provided with two wooden wheels, with a rim-width of approximately 130 mm. The circumference of the wheels must be grooved for the guidance of the hose. The radius of the wheels, measured to the bottom of the groove, must be 102 mm. The longitudinal median planes of both wheels must be in the same vertical plane. The distance between the wheel-centres must be vertical 241 mm and horizontal 102 mm. Each wheel must be able to rotate freely round its pivot-centre. A propulsion mechanism pulls the hose over the wheels at a speed of four complete motions per minute. 3.5.4.3. The hose shall be S-shape-like installed over the wheels (see Figure 3). The end, that runs over the upper wheel, shall be furnished with a sufficient mass as to achieve a complete snuggling of the hose against the wheels. The part that runs over the lower wheel is attached to the propulsion mechanism. The mechanism must be so adjusted, that the hose travels a total distance of

Bending test. 3.5.4.1. An empty hose, at a length of approximately 3.5 m must be able to withstand 3,000 times the hereafter prescribed alternating-bending-test without breaking. After the test the hose must be capable of withstanding the test pressure as mentioned in paragraph 3.5.5.2. a 3.5.4.2. The testing machine (see Figure 3) shall consist of a steel frame, provided with two wooden wheels, with a rim-width of approximately 130 mm. The circumference of the wheels must be grooved for the guidance of the hose. The radius of the wheels, measured to the bottom of the groove, must be 102 mm. The longitudinal median planes of both wheels must be in the same vertical plane. The distance between the wheel-centres must be vertical 241 mm and horizontal 102 mm. Each wheel must be able to rotate freely round its pivot-centre. A propulsion mechanism pulls the hose over the wheels at a speed of four complete motions per minute. 3.5.4.3. The hose shall be S-shape -like installed over the wheels (see Figure 3). The end, that runs over the upper wheel, shall be furnished with a sufficient mass as to achieve a complete snuggling of the hose against the wheels. The part that runs over the lower whee l is attached to the propulsion mechanism. The mechanism must be so adjusted, that the hose travels a total distance of 1.2m in both directions.

Bending test. 2.5.3.1. An empty hose, at a length of approximately 3.5 m shall be able to withstand 3,000 times the hereafter prescribed alternating-bending-test without breaking. After the test the hose shall be capable of withstanding the test pressure as mentioned in paragraph 2.5.4.2. 72 2.5.3.2. Figure 2 (example only) b mass propulsion mechanism 1,2m Hose inside diameter [mm] Bending radius [mm] (Figure 2) Distance between centres [mm] (Figure 2) up to 13 102 241 102 13 to 16 153 356 153 from 16 to 20 178 419 178