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- greenteQ glazing rebate inserts VEKA 76
greenteQ glazing rebate inserts VEKA 76greenteQ glazing rebate inserts VEKA 76
Product ID:2172750300
EACH
Packaging unit: 500
Sales unit: EACH
greenteQ glazing bridges are made of polypropylene (PP).
The material properties of PP:
Modulus of elasticity 1,600 N/mm²
The modulus of elasticity (E modul) is how elastic a material. (For example: steel, 210,000 N/mm², rubber 5 N/mm²).
Ball indentation hardness approximately 80 N/mm²
The ball indentation hardness specifies how much force must be applied in order to displace an area of 1 mm² in size. This test procedure is performed with a standardised ball. 1 N (Newton) corresponds to a weight of 0.0981 kg/mm², therefore 80 N corresponds to a weight force of 7.848 kg/mm².
Heat deflection temperature 90 - 115°C
The heat deflection temperature specifies the temperature from which a material (thermoplastic) begins to "flow". If a particular temperature limit is exceeded for a short period of time due to the influence of heat, the intermolecular bonding forces of the polymer chains are reduced and the molecular chains become detached from one another more easily. The thermoplastic material begins to flow.
The average load-bearing area of the greenteQ glazing bridges is approximately 1,000 mm² in size. From a computational standpoint, this results in a compressive strength of more than 6 tons. 1,000 mm² x 80 N/mm² = 80,000 N/mm² = 7,848 kg.
The material properties of PP:
Modulus of elasticity 1,600 N/mm²
The modulus of elasticity (E modul) is how elastic a material. (For example: steel, 210,000 N/mm², rubber 5 N/mm²).
Ball indentation hardness approximately 80 N/mm²
The ball indentation hardness specifies how much force must be applied in order to displace an area of 1 mm² in size. This test procedure is performed with a standardised ball. 1 N (Newton) corresponds to a weight of 0.0981 kg/mm², therefore 80 N corresponds to a weight force of 7.848 kg/mm².
Heat deflection temperature 90 - 115°C
The heat deflection temperature specifies the temperature from which a material (thermoplastic) begins to "flow". If a particular temperature limit is exceeded for a short period of time due to the influence of heat, the intermolecular bonding forces of the polymer chains are reduced and the molecular chains become detached from one another more easily. The thermoplastic material begins to flow.
The average load-bearing area of the greenteQ glazing bridges is approximately 1,000 mm² in size. From a computational standpoint, this results in a compressive strength of more than 6 tons. 1,000 mm² x 80 N/mm² = 80,000 N/mm² = 7,848 kg.
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