扭转测试系统
静态和疲劳扭转测试的最佳解决方案。TM TorsionMachine系统可用于各种载荷,扭矩高达700 Nm。紧凑的设计对实验室的空间要求极小,并提供高水平的框架刚度和对中度。TM系列配备了STEP实验室的高性能电子控制设备,为测试产品和样本(如导线、紧固件、开关和弹簧)提供准确的测试和控制数据。
主要应用于生物医学、汽车和航空航天等行业,但扭转试验在塑料、金属材料和紧固件行业也很常见。
扭转试验机
静态和疲劳扭转测试的最佳解决方案。TM TorsionMachine系统可用于各种载荷,扭矩高达700 Nm。紧凑的设计对实验室的空间要求极小,并提供高水平的框架刚度和对中度。TM系列配备了STEP实验室的高性能电子控制设备,为测试产品和样本(如导线、紧固件、开关和弹簧)提供准确的测试和控制数据。
主要应用于生物医学、汽车和航空航天等行业,但扭转试验在塑料、金属材料和紧固件行业也很常见。
无需维护
高可靠性
高效率
高性能
安装便捷
技术参数
优势
- 双线性导轨设计提供了高扭转刚度和低轴向摩擦。
- 无刷电机直接施加扭矩,无需任何插入式传输,可实现真正的零齿隙系统。
- 可调反作用支架锁定系统允许浮动或固定操作。
- 0.2-1000 Nm的扭矩传感器在非常广泛的测试范围内提供了卓越的精度。
- TestCenter软件具有扭转测试功能,为高级扭转测试提供了最先进的选项。
- 扭转单元保护工具可防止在测试设置期间损坏低容量扭转单元。
- 可选预加载系统:带有气动驱动和预加载值手动调整功能。
- 还可以集成额外的轴向载荷传感器,以在样品上实现真实而准确的预加载。
Plastic
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| static tests | Plastic | ASTM D638 | Tensile properties of plastics |
| static tests | Plastic | ISO 527-1 ISO 527-2 |
Plastics-Determination of Tensile Properties |
Metal
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static test | Metal | ASTM E21 | High-temperature tensile testing of metallic materials |
| static test | Metal | ASTM E290 | Material bending test for ductility |
| Static tests | Metal | ASTM E517 | Plastic deformation ratio r for sheet metal |
| Static tests | Metal | ASTM E646 | Tensile hardening exponents (n-values) of sheet metal materials |
| Static tests | Metal | ASTM E8M | Tensile testing of metallic materials |
| Static tests | Metal | ASTM E9 | Compression testing of metallic materials at room temperature |
| Static tests | Metal | EN 10002-1:2001 (replaced by ISO EN 6892-1:2019) | Tensile testing of metallic materials. Test method at room temperature |
| Static tests | Metal | ISO 6892-1 | Metallic materials – Tensile testing Part 1: Test method at room temperature |
| Static tests | Metal | ISO 7438 | Metallic materials. Bending test. |
| Static tests | Metal | ISO 783 | Metallic materials – Tensile test of steel at high temperature |
Bike
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static / Fatigue | Bici | EN 15194 | Electrically assisted pedal cycles – EPAC Bicycles – test methods |
| Static / Fatigue | Bike | ISO 4210-3 | Bicycle safety requirements – Part 3: Common test methods |
| Static / Fatigue | Bike | ISO 4210-4 | Safety requirements for bicycles – Part 4: Braking test methods |
| Static / Fatigue | Bike | ISO 4210-5 | Bicycle safety requirements – Part 5: Steering test methods |
| Static / Fatigue | Bike | ISO 4210-6 | Safety requirements for bicycles – Part 6: Test methods for frame and fork |
| Static / Fatigue | Bike | ISO 4210-7 | Bicycle safety requirements – Part 7: Test methods for wheels and rims |
| Static / Fatigue | Bike | ISO 4210-8 | Safety requirements for bicycles – Part 8: Pedal and drive system test methods |
| Static / Fatigue | Bike | ISO 4210-9 | Bicycle safety requirements – Part 9: Test methods for saddles and seatposts |
Biomedical
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static / Fatigue | Biomedical | ASTM F1264 | Standard Specifications and Test Methods for Intramedullary Fixation Devices |
| Static / Fatigue | Biomedicale | ASTM F1717 | Standard test methods for spinal implant structures in a vertebrectomy model |
| Static / Fatigue | Biomedicale | ASTM F1798 | Standard test method for evaluating static and fatigue properties of interconnection mechanisms and subassemblies used in spinal arthrodesis implants |
| Static / Fatigue | Biomedicale | ASTM F1800 | Standard Practice for Cyclic Fatigue Testing of Metal Components of the Tibial Plateau of Total Knee Joint Prostheses |
| Static / Fatigue | Biomedicale | ASTM F2068 | Standard specifications for femoral prostheses – metal implants |
| Static / Fatigue | Biomedicale | ASTM F2077 | Test methods for intervertebral body fusion devices |
| Static / Fatigue | Biomedicale | ASTM F2193 | Standard specifications and test methods for components used in surgical fixation of the spinal skeletal system |
| Static / Fatigue | Biomedicale | ASTM F2502 | Standard specifications and test methods for resorbable plates and screws for internal fixation implants |
| Static / Fatigue | Biomedicale | ASTM F2580 | Standard practice for evaluating the modular connection of a proximally fixed femoral hip prosthesis |
| Static / Fatigue | Biomedicale | ASTM F2706 | Standard test methods for occipito-cervical and occipito-cervical-thoracic spinal implant constructions in a vertebrectomy model |
| Static / Fatigue | Biomedicale | ASTM F382 | Standard Specifications and Test Method for Metal Bone Plates |
| Static / Fatigue | Biomedicale | ASTM F384 | Standard specifications and test methods for angled metal devices for orthopaedic fracture fixation |
| Static / Fatigue | Biomedicale | ASTM F543 | Standard Specifications and Test Methods for Metal Medical Bone Screws |
| Static / Fatigue | Biomedicale | EN 843-1 | Mechanical properties of monolithic ceramics at room temperature – Determination of flexural strength |
| Static / Fatigue | Biomedicale | ISO 11405 | Tooth structure adhesion test |
| Static / Fatigue | Biomedical | ISO 12189-8 | Mechanical testing of implantable spinal devices – Fatigue test method for spinal implant assemblies using anterior support |
| Static / Fatigue | Biomedical | ISO 14801 | Dentistry – Implants – Dynamic load test for endosseous dental implants |
| Static / Fatigue | Biomedical | ISO 14879-1 | Total knee joint replacement Determination of strength properties of tibial knee trays |
| Static / Fatigue | Biomedical | ISO 6872 | Dentistry – Ceramic materials |
| Static / Fatigue | Biomedical | ISO 7206 | Surgical implants – Partial and total hip joint replacements |
| Static / Fatigue | Biomedical | ISO 9585 | Surgical implants – Determination of flexural strength and stiffness of bone plates |
Rubber
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static tests | Rubber | ISO 2439 | Determination of hardness (indentation technique) |
| Static tests | Rubber | ISO 3386 | Determination of stress-strain characteristics in compression |
