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Showing 14 results in "Braze Alloys”
Demand for turbine engine blades is increasing, and the investment casting industry is looking for more efficient manufacturing processes. The two key materials currently used – alumina and silica (quartz) – have advantages and drawbacks in terms of strengths and processing time. Eric Larson, Director of Technology and Process Improvement at the Technical Ceramics Business of Morgan Advanced Materials, explains how Morgan’s innovative new material LEMA™ combines the two’s best aspects to provide an effective solution for manufacturers.
The space industry is growing fast and is predicted to be worth over a trillion dollars by 2040. Keith Ferguson, Senior Business Development Manager at Morgan Advanced Materials’ Braze Alloys Business, explains how braze alloys play their part in safe, reliable and sustainable space exploration.
The saying goes “one small step for man, one giant leap for mankind”. This famous phrase, uttered by Neil Armstrong, is the perfect advertisement for space exploration and its importance to the future.
Less than a century old, space exploration has come on leaps and bounds since the first artificial satellite, Sputnik 1, was propelled into space in 1957. Since then, the world has witnessed marvels such as landing on the moon, the space shuttle programme of the 1970s, and the launch of the International Space Station.
Morgan Advanced Materials, the global leader in materials manufacturing, has significantly improved its braze alloys service in the US. The move comes to support customers requiring mission critical components for aerospace, medical and industrial applications.
Former President of George Ford & Sons, Tom Ford, has been appointed as Fused Silica Product Manager at Morgan Advanced Materials’ Haldenwanger Business. This bolsters Morgan’s position in the fused silica roller industry, through his extensive experience.
Morgan Advanced Materials, the global leader in materials manufacturing, has developed a proprietary leachable material which significantly cuts investment casting times in turbine engine blades by up to 20 percent.
Vom 15. bis 18. April 2018 hat WESGO an der International Brazing and Soldering Conference IBSC 2018 in New Orleans teilgenommen.
Morgan Advanced Materials is set to expand its international network of cutting-edge materials research facilities with the addition of a dedicated Metals and Joining Center of Excellence in Hayward, California, USA.
The very latest in specialist maintenance repair & overhaul (MRO) techniques for the aerospace sector will be showcased by Morgan Advanced Materials at the 2015 Aero Engines Europe event, which will take place at the Paris Charles de Gaulle Airport Marriott Hotel on 21-22 October.
Morgan Advanced Materials announces the development of a groundbreaking new capability of brazing carbon fiber, ceramics, composites, or other engineered materials directly to a titanium honeycomb. This technique brings together the best qualities of both components, ensuring a final material that is strong, lightweight, and impact- and heat-resistant.
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.