Add to ORKGSpecimens of a nickel-bonded titanium carbide cermet were given the following surface treatments: (1) grinding, (2) lapping, (3) blast cleaning, (4) acid roughening, (5) oxidizing, and (6) oxidizing and refinishing. Room-temperature modulus-of-rupture and impact strength varied with the different surface treatments. Considerable strength losses resulted from the following treatments: (1) oxidation at 1600 F for 100 hours, (2) acid roughening, and (3) severe grinding with 60-grit silicon carbide abrasive. The strength loss after oxidation was partially recovered by grit blasting or diamond grinding
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
On a strength-to-weight ratio basis, ceramals appeared promising as gas-turbine-blade materials in t...
Specimens of a nickel-bonded titanium carbide cermet were given the following surface treatments: (1...
Elevated-temperature properties of titanium carbide base ceramals containing nickel or iron were det...
The five-ball fatigue tester was used to study the behavior of nickel- bonded titanium carbide cerme...
The impact properties of titanium carbide base cermets, some high-temperature alloys, and the inter-...
CP Ti was mirror-polished and then abraded with waterproof SiC papers of two different grit sizes: 1...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
A major improvement in the resistance to deformation in TiC cermet’s and at the same time as a reduc...
Failures that occur in titanium-ceramic restorations are of concem to dental clinicians. The formati...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
© 2015 Elsevier Ltd. Roughening of Ti6Al4V by blasting with alumina or zirconia particles improves t...
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
On a strength-to-weight ratio basis, ceramals appeared promising as gas-turbine-blade materials in t...
Specimens of a nickel-bonded titanium carbide cermet were given the following surface treatments: (1...
Elevated-temperature properties of titanium carbide base ceramals containing nickel or iron were det...
The five-ball fatigue tester was used to study the behavior of nickel- bonded titanium carbide cerme...
The impact properties of titanium carbide base cermets, some high-temperature alloys, and the inter-...
CP Ti was mirror-polished and then abraded with waterproof SiC papers of two different grit sizes: 1...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
A major improvement in the resistance to deformation in TiC cermet’s and at the same time as a reduc...
Failures that occur in titanium-ceramic restorations are of concem to dental clinicians. The formati...
Titanium alloys are commonly used in biomedical application in hard tissues replacement especially f...
© 2015 Elsevier Ltd. Roughening of Ti6Al4V by blasting with alumina or zirconia particles improves t...
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
Manufacturing of hardmetal tools often involves surface grinding, ion etching and final coating. Eac...
On a strength-to-weight ratio basis, ceramals appeared promising as gas-turbine-blade materials in t...