COMPUTER MATS WHICH USED

Brand Owner (click to sort) Address Description
DATA PAD TIME'S UP, INC. 155 Avenue C New York NY 10009 computer mats which are used as a surface on which to move a mouse-type cursor control unit [, keyboards, user programmable keyboards, keyboard templates and overlays, mirrors for attachments to computer displays, membrane switches, graphic overlays for membrane switches, and computer software recorded on magnetic and optical media for generating screen saver displays ];
DATAPAD Giraffics, Inc. 115 SOUTH STATE STREET LINDON UT 84042 computer mats which are used as a surface on which to move a mouse-type cursor control unit, mouse-type cursor control unit accessories, keyboards, user programmable keyboards, keyboard templates and overlays, mirrors for attachment to computer displays, membrane switches, graphic overlays for membrane switches, and computer software recorded on magnetic and optical media;
SEE-THRU PAD TIME'S UP, INC. 155 Avenue C New York NY 10009 computer mats which are used as a surface on which to move a mouse-type cursor control unit;SEE THROUGH PAD;PAD;
SEE-THRU PAD Giraffics, Inc. 115 SOUTH STATE STREET LINDON UT 84042 COMPUTER MATS WHICH ARE USED AS A SURFACE ON WHICH TO MOVE A MOUSE-TYPE CURSOR CONTROL UNIT;
SPEED PAD TIME'S UP, INC. 155 Avenue C New York NY 10009 COMPUTER MATS WHICH ARE USED AS A SURFACE ON WHICH TO MOVE A MOUSE-TYPE CURSOR CONTROL UNIT;PAD;
SPEED PAD Edje, Inc. 5825 EL CAMINO ROAD LAS VEGAS NV 89118 COMPUTER MATS WHICH ARE USED AS A SURFACE ON WHICH TO MOVE A MOUSE-TYPE CURSOR CONTROL UNIT;PAD;
SPEED PAD PROTOLAB 48 NORTH GENEVA ROAD OREM UT 84057 COMPUTER MATS WHICH ARE USED AS A SURFACE ON WHICH TO MOVE A MOUSE-TYPE CURSOR CONTROL UNIT;PAD;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Preform for carbon-carbon composite part (55) comprising multiple layers of fibrous mats (51, 52, 53) wherein each mat (51, 52, 53) comprises random carbon-containing fibrous matrix (11) having polymeric binder distributed therein and wherein adjacent mats (51, 52, 53) are bound together by additional polymer binder, stitching, and interlocking tabs. Also, method of manufacturing thick multi-layer composite preform, by: providing optionally reconfigurable tool including perforated screen through which vacuum can be drawn; delivering chopped fibers (b) to the tool while drawing vacuum therethrough to form fibrous object; delivering binder (c) to the fibrous object; melting or curing the binder (d) to make a fibrous mat (51, 52, 53); assembling plurality of the fibrous mats (51, 52, 53) and additional binder into the shape of a preform (e); and heat-pressing the resulting mat assembly (f) into finished thick preform (55).