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Tensile strength enhancement in interground fiber cement composites
C. P. Ostertag
*
,
C. K. Yi
, G. Vondran
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Citations (Scopus)
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Keyphrases
Tensile Strength
100%
Strength Enhancement
100%
Fiber-reinforced Cementitious Composites
100%
Interground
100%
Fiber Distribution
66%
Secondary Microcracks
66%
Fiber Cement
66%
Fiber Pull-out
66%
Strain Hardening
33%
Milling Process
33%
Crack Growth
33%
Ultimate Strength
33%
Cracking Mechanism
33%
Custom Design
33%
Propagating Crack
33%
Strain Softening
33%
Toughening Mechanism
33%
Fiber-matrix Interface
33%
Cement Production
33%
Strain Capacity
33%
Fiber Volume
33%
Cement Clinker
33%
Fiber Surface Modification
33%
Microcrack Formation
33%
Ordinary Cement
33%
Loading Device
33%
Load Application
33%
Engineering
Ultimate Tensile Strength
100%
Strength Enhancement
100%
Cement Composite
100%
Toughening
33%
Crack Growth
33%
Ultimate Strength
33%
Cracking Mechanism
33%
Manufacturing Process
33%
Propagating Crack
33%
Matrix Interface
33%
Cement Clinker
33%
Load Application
33%
Loading Device
33%
Strain Capacity
33%
Dry Cement
33%
Fibre Surface
33%
Strain Hardening
33%
Material Science
Ultimate Tensile Strength
100%
Work Hardening
100%
Surface Treatment
100%
Crack Growth
100%