A method to improve vibration isolation in semiconductor process level inhibits vibration frequencies transmitted through building structure from production tools, pumps, compressors, chillers, AHUs (Air Handling Units), and footfalls traffic on raised floor system on to tool pedestals and pads from affecting semiconductor fabrication processes. Rapid advancement and technological evolution in semiconductor industry foresee the imminent requirements for decrease in semiconductor chip node sizes to single digit nanometer. Dealing with such advancements, the tool pedestal systems are also requiring tighter specifications for stiffness and vibration isolation/reduction. Some key tools used in the semiconductor fabrication process require improved barrier from electromagnetic interference (EMI), as the disturbance from EMI degrade the performance of semiconductor processing tools that are key to the fabrication process and production yield rate.

A method to improve vibration isolation in semiconductor process level inhibits vibration frequencies transmitted though building structure from production tools, pumps, compressors, chillers, AHUs (Air Handling Units), and footfalls traffic on raised floor system on to tool pedestals and pads from affecting semiconductor fabrication processes. The tool pedestal/pad for modern semiconductor FABs are required have very small tolerance to ambient vibration. Therefore, reduction and isolation of vibration of tool pedestal/pad is the key requirement for safe, reliable and uninterrupted operation of modern semiconductor FABs. Sound proofing material and foam is injected into hollow steel and/or aluminum support members and sound proofing adhesives and/or caulking are applied at points of connections in conjunction with mechanical fastening. In various applications, placement of shaped wielded rod utilized for dissipating vibration energy in center of hollow member which is surrounded with sound proofing material and/or foam.

A method to improve vibration isolation in semiconductor process level inhibits vibration frequencies transmitted though building structure from production tools, pumps, compressors, chillers, AHUs (Air Handling Units), and footfalls traffic on raised floor system on to tool pedestals and pads from affecting semiconductor fabrication processes. Sound proofing material and foam is injected into hollow steel and/or aluminum support members and sound proofing adhesives and/or caulking are applied at points of connections in conjunction with mechanical fastening. In various applications, placement of shaped wielded rod utilized for dissipating vibration energy in center of hollow member which is surrounded with sound proofing material and/or foam. In addition, utilization of this method for dedicated MEP (mechanical, electrical, plumbing) support pedestal, only attach as support for MEP lines, as to improve isolation of low frequency vibration.

Disclosed are a raised access floor panel material structure disposed on a floor of a structure, wherein a floor panel material of floor material capable of easily accommodating wires for power, computer and communication or devices such as air conditioning facilities etc. at its lower part is formed in an assembled manner by a floor consisting of combined unit panels and is conveniently laid on the a floor surface to form a neat floor panel and a method for forming the raised floor panel material structure.