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Time-dependent damage evolution in m...
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University of Manitoba (Canada).
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Time-dependent damage evolution in multidirectional polymer composite laminates.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Time-dependent damage evolution in multidirectional polymer composite laminates./
作者:
Birur, Anand.
面頁冊數:
125 p.
附註:
Source: Masters Abstracts International, Volume: 47-01, page: 0536.
Contained By:
Masters Abstracts International47-01.
標題:
Chemistry, Polymer. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=MR41386
ISBN:
9780494413869
Time-dependent damage evolution in multidirectional polymer composite laminates.
Birur, Anand.
Time-dependent damage evolution in multidirectional polymer composite laminates.
- 125 p.
Source: Masters Abstracts International, Volume: 47-01, page: 0536.
Thesis (M.Sc.)--University of Manitoba (Canada), 2008.
Multi-directional polymer matrix composite materials are increasingly used in load-bearing structural applications ranging from primary aircraft structures and automotive parts to rehabilitation of bridges. Long-term durability, characterized by time-dependent degradation in strength (known as creep-rupture) and modulus (known as creep), is an important concern in these applications. Despite the experimental evidence on the influence of time-dependent damage on creep and creep rupture of multi-directional composites, current level of understanding of this is very limited. Hence, the focus of this thesis is to develop a clear understanding of the time dependent evolution of various damage modes and their influence on creep rupture of polymer matrix composite laminates. Hexcel Corporation's F263/T300 unidirectional composite pre-preg was used in this study. Three laminates [0/90/0], [+/-45/90 2]s, and [0/902]s were subjected to a wide range of constant stresses at various test temperatures and creep rupture time was recorded. Additionally, the time for appearance of first damage in [90] layer (known as First Ply Failure which influences design) as well as the various damage modes and their time-dependent evolution until fracture were monitored. While the first two laminates were used to understand the effect of stacking sequence, the third laminate, [0/902]s , was compared with the other two laminates to delineate the effect of outer-ply constraint ([90] versus [45]) and thickness of [90] layers on time-dependent progressive damage in the [90] ply. The various damage modes that developed, with stress during tensile testing, and with time during constant stress creep rupture testing were transverse cracking, vertical cracking, delamination, vertical splitting and fiber fracture. While transverse cracking was the first damage mode in [+/-45/902]s, vertical cracking was the first damage mode in [0/90/0]. The appearance of these damages were time dependent confirming that the FPF stress is time-dependent, while the conventional wisdom is to consider it to be time-independent in design. Beyond FPF, the above single modes of damage continued to evolve for a certain period of time beyond which additional damage modes started to evolve influencing the evolution rate of one-another. The % of creep rupture time during which a single mode of damage was evolving decreased with increase in applied stress and test temperature. Based on these results it is concluded that creep rupture of multidirectional laminates is influenced by contributions from a complex interaction of various damage modes that evolve with time, suggesting that creep rupture predictions could be good approximations only.
ISBN: 9780494413869Subjects--Topical Terms:
1018428
Chemistry, Polymer.
Time-dependent damage evolution in multidirectional polymer composite laminates.
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Multi-directional polymer matrix composite materials are increasingly used in load-bearing structural applications ranging from primary aircraft structures and automotive parts to rehabilitation of bridges. Long-term durability, characterized by time-dependent degradation in strength (known as creep-rupture) and modulus (known as creep), is an important concern in these applications. Despite the experimental evidence on the influence of time-dependent damage on creep and creep rupture of multi-directional composites, current level of understanding of this is very limited. Hence, the focus of this thesis is to develop a clear understanding of the time dependent evolution of various damage modes and their influence on creep rupture of polymer matrix composite laminates. Hexcel Corporation's F263/T300 unidirectional composite pre-preg was used in this study. Three laminates [0/90/0], [+/-45/90 2]s, and [0/902]s were subjected to a wide range of constant stresses at various test temperatures and creep rupture time was recorded. Additionally, the time for appearance of first damage in [90] layer (known as First Ply Failure which influences design) as well as the various damage modes and their time-dependent evolution until fracture were monitored. While the first two laminates were used to understand the effect of stacking sequence, the third laminate, [0/902]s , was compared with the other two laminates to delineate the effect of outer-ply constraint ([90] versus [45]) and thickness of [90] layers on time-dependent progressive damage in the [90] ply. The various damage modes that developed, with stress during tensile testing, and with time during constant stress creep rupture testing were transverse cracking, vertical cracking, delamination, vertical splitting and fiber fracture. While transverse cracking was the first damage mode in [+/-45/902]s, vertical cracking was the first damage mode in [0/90/0]. The appearance of these damages were time dependent confirming that the FPF stress is time-dependent, while the conventional wisdom is to consider it to be time-independent in design. Beyond FPF, the above single modes of damage continued to evolve for a certain period of time beyond which additional damage modes started to evolve influencing the evolution rate of one-another. The % of creep rupture time during which a single mode of damage was evolving decreased with increase in applied stress and test temperature. Based on these results it is concluded that creep rupture of multidirectional laminates is influenced by contributions from a complex interaction of various damage modes that evolve with time, suggesting that creep rupture predictions could be good approximations only.
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