1
Sung W Cha, Nam P Suh, Daniel F Baldwin, Chul B Park: Microcellular thermoplastic foamed with supercritical fluid. Massachusetts Institute of Technology, Robert F O Connell, October 27, 1992: US05158986 (201 worldwide citation)

A supermicrocellular foamed material and a method for producing such material, the material to be foamed such as a polymerplastic material, having a supercritical fluid, such as carbon dioxide in its supercritical state, introduced into the material to form a foamed fluid/material system having a pl ...


2
Daniel F Baldwin, Nam P Suh, Chul B Park, Sung W Cha: Supermicrocellular foamed materials. Massachusetts Institute of Technology, Robert F O Connell, August 2, 1994: US05334356 (131 worldwide citation)

A supermicrocellular foamed material and a method for producing such material, the material to be foamed such as a polymerplastic material, having a supercritical fluid, such as carbon dioxide in its supercritical state, introduced into the material to form a foamed fluid/material system having a pl ...


3
Chul B Park, Nam P Suh, Daniel F Baldwin: Method for providing continuous processing of microcellular and supermicrocellular foamed materials. Massachusetts Institute of Technology, Ernest V Dike Bronstein Roberts & Cushman Linek, February 2, 1999: US05866053 (71 worldwide citation)

An extrusion system for providing a foamed material in which a material such as a polymer material is supplied to an extruder for movement through a rotating screw member. The material is placed in a molten state and a foaming agent, such as a supercritical fluid, is introduced into the extruder at ...


4
Chul B Park, Nam P Suh, Daniel F Baldwin: Method for providing continuous processing of microcellular and supermicrocellular foamed materials. Massachusetts Institute of Technology, George W Dike Bronstein Roberts and Cushman Neuner, April 18, 2000: US06051174 (46 worldwide citation)

An extrusion system for providing a foamed material in which a material such as a polymer material is supplied to an extruder for movement through a rotating screw member. The material is placed in a molten state and a foaming agent, such as a supercritical fluid, is introduced into the extruder at ...


5
Swapan K Bhattacharya, Daniel F Baldwin: Method for providing a low temperature curable gallium alloy for multichip module substrates. Georgia Tech Research, Thomas Kayden Horstemeyer & Risley, April 29, 2003: US06554923 (3 worldwide citation)

A system and method for providing via-hole filling for microelectronic interconnections, is disclosed. Gallium metal is melted and mixed with a measured amount of copper and nickel, thereby creating a gallium alloy. Via holes are drilled within a substrate and filled with the gallium alloy. Excess g ...


6
Daniel F Baldwin, Nam P Suh, Chul B Park, Sung W Cha: Supermicrocellular foamed materials. Massachusetts Institute of Technology, Dike Bronstein Roberts and Cushman Intellectual Property Practice Group of Edwards & Angell, December 10, 2002: USRE037932

A supermicrocellular foamed material and a method for producing such material, the material to be foamed such as a polymerplastic material, having a supercritical fluid, such as carbon dioxide in its supercritical state, introduced into the material to form a foamed fluid/material system having a pl ...


7
Swapan K Bhattacharya, Daniel F Baldwin: System and method for providing a low temperature curable gallium alloy for multichip module substrates. Georgia Tech Research Corporation, Thomas Kayden Horstemeyer & Risley, November 22, 2001: US20010044206-A1

A system and method for providing via-hole filling for microelectronic interconnections, is disclosed. Gallium metal is melted and mixed with a measured amount of copper and nickel, thereby creating a gallium alloy. Via holes are drilled within a substrate and filled with the gallium alloy. Excess g ...


8
Daniel F Baldwin, Juris P Kalejs: Solar module manufacturing processes. J Scott Southworth Attorney At Law, October 2, 2008: US20080236655-A1

Solar module manufacturing methods for manufacturing a solar electric module including photovoltaic cells. The method includes applying an interconnect material to a flexible electrical backplane having preformed conductive interconnect circuitry to form interconnect attachments. The method aligns a ...