The norm of elastic constant tensor and the norms of the irreducible parts of the elastic constants of
Intermetallic compounds are calculated. The relation of the scalar parts norm and the other parts norms
and the anisotropy of these compounds are presented. The norm ratios are used to study anisotropy of
these compounds.
Thermal Analysis of Clay Pot in Pot RefrigeratorIJMER
Cooling through evaporation is an ancient effective method of lowering temperature. The simple clay pot refrigerator is ideally suited for preserving vegetarian food and water in hot and dry climates. The refrigeration takes place by evaporation through the porous pot material. The present work includes experimental analysis of a clay pot in pot by varying height of water in the inner pot, by varying water level in the annulus of two pots and by subjecting the pot in pot refrigerator for free and forced convection. Results obtained from experimental analysis shows that Temperature T1 is highest when inner
pot is filled with 5.5litres of water and lowest when it is filled with 1.5 litres of water. Temperature T1 decreases by increasing water level in the annulus of two pots and rate of cooling is lowest when pot in pot refrigerator is subjected to free convection and highest when it is subjected to forced convection.
The norm of elastic constant tensor and the norms of the irreducible parts of the elastic constants of
Intermetallic compounds are calculated. The relation of the scalar parts norm and the other parts norms
and the anisotropy of these compounds are presented. The norm ratios are used to study anisotropy of
these compounds.
Thermal Analysis of Clay Pot in Pot RefrigeratorIJMER
Cooling through evaporation is an ancient effective method of lowering temperature. The simple clay pot refrigerator is ideally suited for preserving vegetarian food and water in hot and dry climates. The refrigeration takes place by evaporation through the porous pot material. The present work includes experimental analysis of a clay pot in pot by varying height of water in the inner pot, by varying water level in the annulus of two pots and by subjecting the pot in pot refrigerator for free and forced convection. Results obtained from experimental analysis shows that Temperature T1 is highest when inner
pot is filled with 5.5litres of water and lowest when it is filled with 1.5 litres of water. Temperature T1 decreases by increasing water level in the annulus of two pots and rate of cooling is lowest when pot in pot refrigerator is subjected to free convection and highest when it is subjected to forced convection.
Titanium alloy is a kind of nonferrous metal that is good at small density, high strength, good mechanical performance, anticorrosion, heat and cold resistant, non-poisonous, and non-magnetic. And is widely used in chemical equipment, petrochemical, marine, aerospace, medical, vehicle, sports etc.
A presentation on the new magnetostrictive material Galfenol is provided. Galfenol can be integrated into next generation actuators, sensors, and energy harvesting devices.
Cast White Metal Bearings
1 SCOPE
2 BACKING MATERIAL
3 SURFACE
4 THICKNESS
5 CLEANING PROCEDURE
6 TINNING
7 WHITE METAL
8 BOND SOUNDNESS
9 WITNESSED INSPECTION
10 MACHINING
11 FINAL INSPECTION OF BOND FOR SEAL RINGS
APPENDIX
A - METHOD OF CALCULATING REFLECTANCE RATIO
Titanium alloy is a kind of nonferrous metal that is good at small density, high strength, good mechanical performance, anticorrosion, heat and cold resistant, non-poisonous, and non-magnetic. And is widely used in chemical equipment, petrochemical, marine, aerospace, medical, vehicle, sports etc.
A presentation on the new magnetostrictive material Galfenol is provided. Galfenol can be integrated into next generation actuators, sensors, and energy harvesting devices.
Cast White Metal Bearings
1 SCOPE
2 BACKING MATERIAL
3 SURFACE
4 THICKNESS
5 CLEANING PROCEDURE
6 TINNING
7 WHITE METAL
8 BOND SOUNDNESS
9 WITNESSED INSPECTION
10 MACHINING
11 FINAL INSPECTION OF BOND FOR SEAL RINGS
APPENDIX
A - METHOD OF CALCULATING REFLECTANCE RATIO
