Knowledge Centre
Mat-Tech closely follows international developments in the field of high-tech brazing. Mat-Tech Development & Testing Department has access to new and fundamental research in the field, and is also actively involved in a number of international projects. The knowledge that Mat-Tech acquires is shared with our clients, industry peers and other parties where there is a common ground in high-tech brazing. We are actively sharing our knowledge at fairs, seminars and on this platform as well as other media. Some of the projects Mat-Tech are involved in are as follows:
Metallography and microstructure of the Cu-brazed P265GH-steel joints
I. Introduction Composition (in weight %) of the low-carbon, low-alloy P265GH-(“killed”) steel is C0.2; Si0.4; Mn 0.8-1.4; P0.025; S0.015; N0.012; Cu0.3; Mo0.08; Ni0.3; Cr0.3; V0.02;
Interfacial region of the ” (p-n) thermocouple” / Cu connector in the thermoelectric convertor
I. Introduction The continued demand for reliable sources of energy can be addressed by the discovery of new sustainable energy sources as well as increasing
Brazing of Cemented Tungsten Carbide to DIN 1.2343 Tool Steel
I. Introduction Although cemented carbide is resistance to thermal shock, it will not withstand stresses caused by severe thermal gradients when brazed to a material
Brazing of Aluminium Oxide Ceramics is an important step in manufacturing of the CO2-cooled substrate
Introduction Aluminium Oxide Ceramics due primarily to its good heat conductivity (of about 30 W´m-1´K-1) and a relatively low cost is considered as an attractive
Active Brazing of Aluminium Oxide Ceramics
Introduction Aluminium Oxide Ceramics is considered as an attractive material in designing of various components when “thermal management issues” are of concern, and Carbon Dioxide
Brazing of Cemented Tungsten Carbide to DIN 1.2343 Tool Steel
Introduction Although cemented carbide is resistance to thermal shock, it will not withstand stresses caused by severe thermal gradients when brazed to a material such