Gester Instruments | Professional Textile, Footwear and PPE Testing Equipments Manufacturers Since 1997
Interpretation of laboratory construction planning and construction process steps
Professional laboratory construction is not just a simple combination of equipment and furniture, it is a complex system engineering and a construction that has strict requirements on the working environment. What are the steps of laboratory construction? The laboratory design company will carry out the laboratory construction according to the following steps. 1. Laboratory construction planning Laboratory construction planning includes construction appearance, style, height, layout, etc.; before laboratory construction, it is necessary to understand customer needs and future development directions, and combine laboratory construction experience in other related industries. planning. 2. Laboratory scheme design is the process of implementing the scheme root by professional means, including laboratory design, installation, debugging, maintenance and upgrade. 3. The selection of laboratory construction unit The laboratory design and construction unit should choose a domestic enterprise with a certain scale, and must strictly inspect the strength and level of the company. It is best to inspect its completed successful cases and the location of the company on the spot. 4. The design of the laboratory plane layout The plane layout design stage should consider the needs of work and development in detail as much as possible, allocate the space reasonably, and optimize the integration as much as possible. The laboratory layout is perfect to ensure the subsequent professional design of water, electricity and wind. 5. Laboratory power distribution system The power distribution system in the laboratory is designed and completed by professional designers based on the specific requirements of experimental instruments and equipment. Because the requirements of laboratory equipment for circuits are relatively complex, the design of the power distribution system should not only consider the existing equipment and equipment, but also consider the development direction of the laboratory in recent years, and fully consider the reservation of the power distribution system. and circuit maintenance. 6. Laboratory air-conditioning system The air-conditioning system not only controls the temperature and humidity of the laboratory, but also cooperates with the laboratory ventilation system to truly effectively ensure the effect of laboratory construction. 7. Laboratory fire protection system The requirements for fire protection in the laboratory will be higher than that of ordinary places. The laboratory design should adopt different fire protection measures according to the specific situation to ensure the fire safety of the laboratory. 8. The pipes of the drainage system of the laboratory water supply and drainage system should be resistant to acid and alkali corrosion and the melting of materials by organic reagents. PPR or other materials should be used instead of ordinary PVC pipes. The plan shall be determined according to the rules and in combination with the outdoor drainage conditions. 9. Laboratory gas supply system The operation of many equipment in the laboratory requires a variety of gas supplies, and the safety of the gas cylinder room must be guaranteed. 10. Laboratory ventilation and exhaust system The design of laboratory air supply and exhaust system affects the entire environment, the health of experimental personnel, and the operation and maintenance of experimental equipment. 11. The choice of laboratory furniture The choice of laboratory furniture should first consider that it can fully meet the needs of the work, mainly involving the countertop material, cabinet structure and material, color matching and other elements. 12. Laboratory interior decoration details When the laboratory is decorated, the ceiling should not use a large overall structure, which will cause hidden dangers in subsequent construction and maintenance. The two sides of the visiting corridor or the large instrument room can be designed with floor-to-ceiling glass curtain wall, which is more transparent and bright, and is easy to manage and visit.
1. ISO 5402-1: Specifies the flexometer method for testing leather flex resistance under repeated bending.
2. ISO 17694: Defines test methods for footwear upper and lining flex resistance, simulating real-world bending stress to assess long-term durability.
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Ball Burst Method (ASTM D3787): Steel ball penetration for textiles/films using testers like GT-C02-2.
Hydraulic Method (ISO 13938.1): Fluid pressure on rubber diaphragm for industrial fabrics via GT-C12A.
Pneumatic Method (ISO 13938.2): Compressed air for breathable materials tested with GT-C12B.
Results are influenced by raw materials, yarn properties,
The Heat Contact Machine GT-C101 is a specialized testing instrument designed for evaluating the heat resistance and thermal protective performance of gloves, protective clothing, and other heat-resistant materials used in high-temperature environments. In industries such as smelting, casting, welding, and glass manufacturing, workers are frequently exposed to intense heat, making accurate testing of contact heat resistance essential for ensuring safety and compliance.
GT-C101 simulates real working conditions by measuring heat transfer delay and thermal transmission under instant contact with high-temperature surfaces. Fully compliant with EN 407, EN 702, and ISO 12127-1 standards, this machine provides precise, repeatable data for manufacturers, laboratories, and research institutions. With high-temperature capability up to 500°C, advanced calorimetry, digital monitoring, and adjustable contact speed, the Heat Contact Machine GT-C101 is an indispensable tool for developing and certifying next-generation PPE and heat-insulation materials.
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