TY - GEN
T1 - Investigation of critical fiber length in phenol matrix based short fiber CFRP by double overlap joints
AU - Heim, Daniel
AU - Zaremba, Swen
AU - Drechsler, Klaus
PY - 2013
Y1 - 2013
N2 - For short fiber CFRP based on a phenol matrix the influence of fiber length in terms of tensile strength and shear strength is investigated. The effect of fiber length within a representative phenol matrix structure (high porosity) is studied by a double lap joint principle. Therefore, a laminate with three layers is manufactured in such a way that each layer exhibits a cut. The two outer layers have the joint at the same position; the middle layer's joint has an offset which is adequate to the overlap length. Specimens with an overlap length ranging from 4 mm to 100 mm are mechanically tested. The CFRP material shows a nonlinear increase in tensile strength for short overlaps. As the overlap length increases, tensile strength reaches an upper limit asymptotically. This overlap length behavior is already known from adhesive double lap joints. The transition point between the rise and the asymptotic region is to determine the optimal overlap length. Due to contrary effects in short fiber composites (e.g. heterogeneity with increasing fiber length), the optimum length for the overlap is not the same as for the continuous fiber composites. If the model system is appropriate for short fiber composites, the optimal overlap length corresponds to an upper limit fiber length. The double lap joint principle could be an effective way of determining a maximum fiber length for a specific fiber matrix combination with a realistic matrix structure.
AB - For short fiber CFRP based on a phenol matrix the influence of fiber length in terms of tensile strength and shear strength is investigated. The effect of fiber length within a representative phenol matrix structure (high porosity) is studied by a double lap joint principle. Therefore, a laminate with three layers is manufactured in such a way that each layer exhibits a cut. The two outer layers have the joint at the same position; the middle layer's joint has an offset which is adequate to the overlap length. Specimens with an overlap length ranging from 4 mm to 100 mm are mechanically tested. The CFRP material shows a nonlinear increase in tensile strength for short overlaps. As the overlap length increases, tensile strength reaches an upper limit asymptotically. This overlap length behavior is already known from adhesive double lap joints. The transition point between the rise and the asymptotic region is to determine the optimal overlap length. Due to contrary effects in short fiber composites (e.g. heterogeneity with increasing fiber length), the optimum length for the overlap is not the same as for the continuous fiber composites. If the model system is appropriate for short fiber composites, the optimal overlap length corresponds to an upper limit fiber length. The double lap joint principle could be an effective way of determining a maximum fiber length for a specific fiber matrix combination with a realistic matrix structure.
UR - http://www.scopus.com/inward/record.url?scp=84875728143&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84875728143
SN - 9781118205884
T3 - Ceramic Engineering and Science Proceedings
SP - 175
EP - 181
BT - Mechanical Properties and Performance of Engineering Ceramics and Composites VII - A Collection of Papers Presented at the 36th International Conference on Advanced Ceramics and Composites, ICACC 2012
T2 - Mechanical Properties and Performance of Engineering Ceramics and Composites VII - 36th International Conference on Advanced Ceramics and Composites, ICACC 2012
Y2 - 22 January 2012 through 27 January 2012
ER -