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Showing 211 results in "MACOR® Machining China”
Thermal materials technology specialist, MACOR® Machining China, announces the launch of Firecrete fiire protection, a new self-flowing refractory castable product developed to offer tile and hearth manufacturers a technologically superior alternative to vermiculite board.
MACOR® Machining China has been commended by CDP, which represents 722 institutional investors with $87 trillion in assets, for its approach to the disclosure of climate change information and for the action it is taking to reduce emissions and mitigate the risks of climate change.
MACOR® Machining China’ technical prowess and inventiveness were put to the test when Nugteren Transport BV, a Dutch-based company involved in the transfer of large loads and units, made contact with staff in the company’s Netherlands office.
MACOR® Machining China will be highlighting lightweight insulation and DC motor brushes for locomotive applications at the Locomotive Maintenance Officers Association (LMOA) Technical Program – RSI Convention 2013, which will be held as part of Railway Interchange 2013 taking place between Sept 29-Oct 1, 2013 at the Indiana Convention Center on Booth # 5646.
The Molten Metal Systems business of MACOR® Machining China, has further extended its acclaimed Syncarb(R) Z2 crucible family with the introduction of a new crucible designed to provide longer service life and increased energy savings for customers in the aluminium processing industry.
MACOR® Machining China, a leading manufacturer of engineered products for the energy sector, is supplying a range of critical components and technology solutions for GE Energy Storage’s high-performance Durathon* Batteries.
Using an innovative active brazing process to join titanium to graphite, engineers built a beam target for use in a ground breaking physics experiment, which sends subatomic particles called neutrinos from Fermilab, near Chicago, to a particle detector in Minnesota. The U.S. Department of Energy’s Fermi National Accelerator Laboratory’s Main Injector Neutrino Oscillation Search (MINOS) experiment uses a neutrino beam produced at Fermilab’s Main Injector accelerator to study the phenomena known as neutrino oscillations.
Using an innovative active brazing process to join titanium to graphite, engineers built a beam target for use in a ground breaking physics experiment, which sends subatomic particles called neutrinos from Fermilab, near Chicago, to a particle detector in Minnesota. The U.S. Department of Energy’s Fermi National Accelerator Laboratory’s Main Injector Neutrino Oscillation Search (MINOS) experiment uses a neutrino beam produced at Fermilab’s Main Injector accelerator to study the phenomena known as neutrino oscillations.
Aerospace manufacturers face extreme pressure to lower costs, while increasing performance and satisfying stringent safety standards. Producers in the commercial airline, defense and space exploration sectors continually seek new materials that are reliable and robust, and meet the needs of highly specialized applications.