Add to ORKGIngot casting was scaled up to 16 cm by 16 cm square cross section size and ingots weighing up to 8.1 kg were cast. The high degree of crystallinity was maintained in the large ingot. For large sizes, the nonuniformity of heat treatment causes chipping of the surface of the ingot. Progress was made in the development of a uniform graded structure in the silica crucibles. The high speed slicer blade-head weight was reduced to 37 pounds, allowing surface speeds of up to 500 feet per minute. Slicing of 10 cm diameter workpieces at these speeds increased the through-put of the machine to 0.145 mm/min
Complete results, from raw data to interpretation to recommendations, of a program to investigate th...
The fixed abrasive slicing technique (FAST) was developed to slice silicon ingots more effectively. ...
The growth method developed allows to prepare single and polycrystalline silicon ingots. Solidificat...
This contract is for casting silicon ingots by the Heat Exchanger Method (HEM) and slicing by multi-...
Silicon ingot size cast by HEM has been extended to 34 cm x 34 cm x 10 cm. A 20 kg ingot has been so...
Graded crucibles have been developed which are dense enough to avoid penetration of the molten silic...
"Report issued: October 1980.""Silicon sheet growth development for the large area sheet task of the...
"Report issued: February 1981.""Silicon sheet growth development for the large area sheet task of th...
In the area of ingot casting the proof of concept of heat exchanger method (HEM) was established. It...
The Fixed Abrasive Slicing Technique (FAST) has been developed as an effective wafering technique by...
The crystallinity of large HEM silicon ingots as a function of heat flow conditions is investigated....
The multiblade slurry technique capable of slicing 10 cm ingot into wafers 0.25 mm thick with only 0...
An industrial silicon ingot casting process for the production of multicrystalline wafers was modell...
Development of inside diameter slicing technology to significantly increase the number of useable sl...
Solar cells fabricated from HEM cast silicon yielded up to 15% conversion efficiencies. This was ach...
Complete results, from raw data to interpretation to recommendations, of a program to investigate th...
The fixed abrasive slicing technique (FAST) was developed to slice silicon ingots more effectively. ...
The growth method developed allows to prepare single and polycrystalline silicon ingots. Solidificat...
This contract is for casting silicon ingots by the Heat Exchanger Method (HEM) and slicing by multi-...
Silicon ingot size cast by HEM has been extended to 34 cm x 34 cm x 10 cm. A 20 kg ingot has been so...
Graded crucibles have been developed which are dense enough to avoid penetration of the molten silic...
"Report issued: October 1980.""Silicon sheet growth development for the large area sheet task of the...
"Report issued: February 1981.""Silicon sheet growth development for the large area sheet task of th...
In the area of ingot casting the proof of concept of heat exchanger method (HEM) was established. It...
The Fixed Abrasive Slicing Technique (FAST) has been developed as an effective wafering technique by...
The crystallinity of large HEM silicon ingots as a function of heat flow conditions is investigated....
The multiblade slurry technique capable of slicing 10 cm ingot into wafers 0.25 mm thick with only 0...
An industrial silicon ingot casting process for the production of multicrystalline wafers was modell...
Development of inside diameter slicing technology to significantly increase the number of useable sl...
Solar cells fabricated from HEM cast silicon yielded up to 15% conversion efficiencies. This was ach...
Complete results, from raw data to interpretation to recommendations, of a program to investigate th...
The fixed abrasive slicing technique (FAST) was developed to slice silicon ingots more effectively. ...
The growth method developed allows to prepare single and polycrystalline silicon ingots. Solidificat...