Dopad zkušební stroj JBW 300

Dopad zkušební stroj JBW 300

The JBW – 300 impact testing machine is commonly used in material science and engineering to measure the impact resistance of materials. Here are some of its main applications:

1. Metallurgical industry

• Quality control of metal products: It can test the impact toughness of various metals such as steel, hliník, and copper. Například, in the production of steel structural parts for buildings and bridges, testing the impact resistance helps ensure that the materials can withstand sudden dynamic loads during use, preventing brittle fracture under extreme conditions like earthquakes or strong winds.
• Research and development of new metal alloys: Scientists use this machine to evaluate the performance of newly developed metal alloys. By comparing the impact test results of different alloy compositions, they can optimize the alloy formula to improve its overall mechanical properties, including impact resistance.

2. Automobile manufacturing

• Testing of automotive parts: Components like engine crankshafts, suspension system parts, and steering knuckles need to have good impact resistance. The JBW – 300 machine can be used to test these parts during the production process to ensure the safety and reliability of the vehicle. For instance, a high – dopad – resistant steering knuckle can better withstand the forces during sharp turns and sudden impacts on the road.
• Material selection for vehicles: Automobile manufacturers use impact test data to select the most suitable materials for different parts of the vehicle. This helps in reducing the weight of the vehicle while maintaining or improving its safety performance, which is crucial for fuel efficiency and overall vehicle design.

3. Aerospace industry

• Testing of aerospace materials: Materials used in aircraft and spacecraft, such as titanium alloys and composite materials, are subject to high – stress and impact conditions during flight. The JBW – 300 impact testing machine can be used to evaluate the impact resistance of these materials to ensure the safety and reliability of aerospace vehicles. Například, the wings and fuselage of an aircraft need to be made of materials that can withstand bird strikes and other in – flight impacts.
• Verification of material specifications: It helps in verifying whether the materials used in aerospace manufacturing meet the strict industry standards and specifications. By conducting impact tests, manufacturers can ensure that the materials used in critical components can perform as expected under various impact scenarios.

4. Education and research institutions

• Teaching experiments: In material science and engineering courses, the JBW – 300 machine is used for teaching students about the impact properties of materials. Students can conduct experiments to understand how different materials respond to impact loads and learn about the factors that affect impact toughness, such as material composition, heat treatment, and microstructure.
• Scientific research: Researchers use this machine to conduct in – depth studies on the impact behavior of materials. They can explore new testing methods, develop theoretical models to predict impact performance, and study the failure mechanisms of materials under impact loading, which contributes to the advancement of material science and engineering knowledge.

aplikace:
Tento druh vlivu na testování stroje JBW 300 Používá se k určení houževnatost kovových materiálů pod dynamickým zatížením. Kyvadlo stroje může být zvýšena nebo automaticky uvolní. Je navržen v souladu s národní normy GB / T3808-1995 „Charpy dopadu zkušebních metod pro kovy“ a normy ISO.
To může také být v souladu s normou ASTM E23 jako zvláštní přání zákazníka. Má rysy snadnou obsluhu, vysoká účinnost, bezpečný a spolehlivý. Počítačový systém může dělat zpracování dat a získat zkušební protokol. Pod super nízkých teplot chladicího systému, to může zkontrolovat výkon nárazu materiálů. Stroj je vhodný zejména pro laboratorní, hutní průmysl, strojní výroba, ocelárna a další obory.

Specifikace: