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Keyword [elevated temperature]
Result: 101 - 120 | Page: 6 of 7
101. Fretting Fatigue Life Model And Experiments Of TC11 Alloy At Different Temperatures
102. Investigation On Temperature Effect And Vehicle Impact Response Of CFRP Cables
103. Research On Characteristics Of Detonation Wave Propagation In Small-scale Channels
104. Study On Sheared High-strength Bolted Connections Fabricated Of Highperformance Fire-resistant Steel At Elevated Temperature
105. Experimental Study On Residual Bearing Capacity Of Concrete Beams With T-shape Under Different Load Ratio After Elevated Temperature
106. Inorganic-based proton conductive composite membranes for elevated temperature and reduced relative humidity PEM fuel cells
107. Elevated temperature fretting fatigue of nickel based alloys
108. Experimental determination of mode I stress intensity factors for elevated temperature fretting fatigue of a nickel-based superalloy
109. Effect of elevated temperature and fire on structural elements retrofitted by carbon fiber reinforced polymer composites
110. Performance of Waspaloy at elevated temperature for heat exchanger applications
111. Numerical simulation for structural steel member or framed structure at elevated temperature
112. Identification of dynamic properties of materials for the spent nuclear fuel package at elevated temperatures
113. Elevated temperature effects on interface shear behavior
114. Composite nafion/zirconium phosphate fuel cell membranes: Operation at elevated temperature and reduced relative humidity
115. The effect of pozzolans and slag on the expansion of mortars and concrete cured at elevated temperature
116. Life prediction methodology for thermal-mechanical fatigue and elevated temperature creep design
117. Water and methanol transport through polymer electrolytes in elevated temperature fuel cells
118. Characterization of fatigue damage in a metal matrix composite (silicon carbide fibers/titanium-15-3) at elevated temperature
119. In situ short crack characterization of a nickel-base superalloy at ambient and elevated temperature
120. APPLICATION OF FRACTURE MECHANICS PRINCIPLES TO FATIGUE CRACK GROWTH IN A POWDER METALLURGY NICKEL-BASE SUPERALLOY (STRAIN ENERGY DENSITY, SHORT CRACK, ELEVATED TEMPERATURE, ASTROLOGY)
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