Listed below are technical publications related to the development of PAAW Technology and its engineering science base.
- Miller, D. E., The Investigation of the Effects of Design Parameters and Laser Processing Technique on the LAAG Fixturing Process, MS. Thesis, The Pennsylvania State University, 2003
- De Meter, E. C, Activated Adhesive Gripper (LAAG) Technology and Process, SME Journal of Manufacturing Processes, Vol. 6/No. 2, 2004, 201-214
- Baker, C. C., An Investigation of the Curing Characteristics of a Photocurable Adhesive for LAAG Workholding Technology, MS. Thesis, The Pennsylvania State University, 2004
- De Meter, E. C, Characterization of the Quasi-Static Deformation Behavior of LAAG Joints Adhering Machined Steel Surfaces, ASME Journal of Manufacturing Science and Engineering, Vol. 127, 2005, 350-357
- Baker, C. C. and E. C. De Meter, Characterization of the Optical Transmission Losses of a Photo-Curable Adhesive During the Photo-Polymerization of a LAAG Joint; Journal of Adhesion Science and Technology 22, 2008, 1105-1121
- Miller, David, An investigation of Light Activated Adhesives for Underwater Structural Assembly, M.S. Thesis, The Pennsylvania State University, 2008
- Baker, C. C. and E. C. De Meter, Investigation of a Critical Irradiance Criterion for Minimizing the Cure Time of a PAW Joint; Journal of Adhesion Science and Technology; 24, 2010, 1303-1317
- Janarthanam, S. K., An Investigation into the Efficiency and Improvement of Industrial LAAG Fixture, M.S. Thesis, The Pennsylvania State University, 2009
- De Meter, E. C. and J. S. Kumar, Assessment of Photo-activated Adhesive Work-holding (PAW) Technology for Holding “Hard-to-Hold” Workpieces for Machining, SME Journal of Manufacturing Systems, 29 (1), 2010, 19-28