Miyachi Unitek将参加德克萨斯医疗器械及医疗器械设计博览会（MD&M Texas）
加利福尼亚州蒙罗维亚——焊接设备与激光加工系统的领先制造商Miyachi Unitek公司宣布，将参加德克萨斯医疗器械及医疗器械设计博览会（MD&M），展出其最新焊接、切割和打标技术。该博览会将于2012年3月14—15日期间在德克萨斯的Fort Worth会展中心举行，Miyachi Unitek的参展展位为412号。
Miyachi Unitek will be displaying and demonstrating a variety of equipment ideal for the medical manufacturing market, including a fiber laser marking system, and both laser and resistance micro welding systems. Also on display will be the Advanced Data Analysis Monitor (ADAM) weld monitor, and weld heads that offer stable, repeatable electrode force for a wide range of medical market resistance welding applications.
Miyachi Unitek将演示LMF-2000 光纤激光产生器, which produces small characters on a wide array of materials and is ideal for marking plastics used in the medical and packaging industries. Fiber laser markers also offer extremely controlled metals marking, which results in the most reliable corrosion-resistant marking for medical materials. “Miyachi Unitek’s technology provides fast, reliable and corrosion resistant marking of medical devices,” said Jack Lantz, president and CEO of Miyachi Unitek Corporation. “We have significant experience in the medical device industry and are eager to help manufacturers achieve UDI compliance.”
参展人员如果希望找到最适合小型部件的焊接技术，则可以参观Miyachi Unitek的LF系列 光纤激光微型焊接系统的演示， which offers extremely precise control and integration of the laser, tooling, and motion. The LF Series can produce focused spot sizes down to 10 microns, while maintaining control of pulse width and peak power to enable fine micro welding.
For micro-miniature resistance spot welding, Miyachi Unitek will be demonstrating its UB25 linear DC micro welder (successor to the Unibond II), which provides unsurpassed levels of control. The UB25 is ideal for smaller applications that require closed-loop feedback control and fast response times. Safety-critical applications such as those found in the medical markets will benefit from the UB25’s precision low energy control.
In addition, Miyachi Unitek will exhibit its 70 Series Servo-Motor Driven Weld Heads, which are designed for use in either automation or benchtop welding. These weld heads offer stable, repeatable electrode force for a wide range of medical market resistance welding applications, including such applications as pacemaker interconnects. On display will be model UB71, featuring an opposed head type. The UB71’s programmable speed and positions, controlled servo motor actuation that eliminates overforce, and “Soft Touch” part clamping, make it ideal for the medical market.
Representing the very latest technology in resistance weld monitoring, Miyachi Unitek’s Advanced Data Analysis Monitor (ADAM) will also be on display. ADAM not only monitors what happens during the weld, but also what happens before the weld is triggered, offering a 360-degree view of the process. Sophisticated SPC capabilities such as the integrated database and Minitab 15® statistical software enable customers to analyze and collect data. Other key features include current, voltage, power, resistance, force and cover gas flow monitoring; high resolution sensors; pre-and post-trigger viewing; envelope limits; and Ethernet communications capability. ADAM offers information to support ISO, GMP and TQM requirements.
关于Amada Miyachi America
Since 1948, Amada Miyachi America, Inc. has worked to achieve one goal: to solve customer's manufacturing challenges. Knowing there is no one solution that fits all, the company strives to provide customers with innovative and reliable manufacturing technology solutions in an effort to be their single source provider. Amada Miyachi America manufactures equipment and systems for resistance welding, laser welding, laser marking, laser cutting, hermetic sealing and hot bar reflow soldering and bonding. The company serves a wide range of markets including medical devices, battery, aerospace, automotive and electronic components. Amada Miyachi America is an ISO9001 certified company. Contact Amada Miyachi America at email@example.com。想要了解本公司产品与服务的更多信息，请登录 www.amadamiyachi.com。