Technical Information
Iepakojuma informācija
Iepakojuma līmenis 1 |
4003773087182 |
Apraksts
92 89 05 Exchangeable ESD tips For particularly demanding precision work: tough and highly resistant to corrosion. Maximum surface protection when handling sensitive electronic components, micro-mechanical parts, as well as glass and ceramic components. For the electronics and precision engineering industries, watchmakers and jewellers. Handcrafted body: polished edges and an excellent matt, scratch-free and non-reflective surface. High-quality premium stainless steel body: high temperature resistance and excellent corrosion resistance to most chemicals, salts and acids. The interchangeable tips are made from 30% carbon fibre reinforced plastic: very good electrical and thermal conductivity, scratch-proof and with high abrasion resistance. The interchangeable, carbon fibre reinforced plastic tips have a surface resistance between 10^2 and 10^4 ohms to compensate in a controlled manner the differences in potential between the operator and electronic components. The interchangeable tips are permanently temperature stable up to 130 °C, and up to 190 °C for short periods. The carbon fibre reinforced plastic tips are extremely flexible, fatigue-resistant, vibration-dampening and water-repellent. The tips have good chemical resistance to most oils, lubricants, fuels and nonpolar solvents. The same accuracy and stability as regular tweezers: the plastic tips have a 3-point connection with zero backlash (2 fixed points on the arms, one screw), which guarantee the user perfect attachment to the body with zero backlash. Potential savings: the tip assortment includes a selection of the most diverse shapes. Depending on the application, only the tips need to be purchased later. - Surface: matt finish- Finish: straight- Tips width (A): 0.7mm- Tips width (B): 0.6mm- Corrosion-resistant: yes - Acid resistance: very good- ESD-tested: yes - VDE tested: no - Sectors: Industry electronics- Magnetic: non-magnetisable (100%)- Behaviour: electrically dissipative