Title :
Statistical strength investigation of poly-silicon membranes using microscopic loading tests and numerical simulation
Author :
Brueckner, John ; Auerswald, Ellen ; Dudek, Rainer ; Wunderle, Bernhard ; Michel, Bernd ; Rzepka, Sven ; Dehe, Alfons
Author_Institution :
Micro Mater. Center MMC, Tech. Univ. Chemnitz, Chemnitz, Germany
Abstract :
The strength of poly-silicon membranes was investigated by experimental tests and numerical simulations. A new fracture test has been developed that replicates the loading situation under real service conditions well but with higher stress level. A set of 45 membranes was tested at each of the three positions on the wafer in order to assure statistical accuracy and to evaluate the strength distribution across the wafer. Using finite element simulation, fracture stresses were calculated and analyzed by means of a two-parametric Weibull distribution subsequently. High values were found for the characteristic fracture stresses. They are in the range of 5,400-6,000 MPa.
Keywords :
Weibull distribution; fracture toughness testing; semiconductor technology; silicon; statistical analysis; stress analysis; Weibull distribution; finite element simulation; fracture stress testing; microscopic loading test; numerical simulation; polysilicon membrane; pressure 5400 MPa to 6000 MPa; statistical strength investigation; strength distribution; wafer testing; Load modeling; Loading; Microscopy; Stress; Surface cracks; Testing; Weibull distribution; Fracture Strength; Poly-Silicon; Strength Testing; Weibull Statistics;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2014 Symposium on
Print_ISBN :
978-2-35500-028-7
DOI :
10.1109/DTIP.2014.7056632
