Fiber steering is one of the promising capabilities of Automated Fiber Placement (AFP) technology in manufacturing of advanced composite structures with spatially tailored properties. The so-called variable stiffness (VS) composites have considerable scope to outperform their traditionally made constant stiffness (CS) counterparts. However, there are several design and manufacturing challenges to be addressed before practically using them as structural components. In this work we demonstrate the design, manufacturing and testing procedure of a variable stiffness (VS) composite cylinder made by fiber steering. The improved bending-induced buckling performance is the objective of the VS cylinder to be compared with its CS counterpart. The exp...
Automated fibre placement (AFP) machines are able to place simultaneously several bundles of fibres,...
peer-reviewedComposite materials are finding increasing application, for example in commercial aircr...
Variable stiffness design of composites, where the fiber orientation changes within the plane of lam...
Two carbon-fiber-reinforced composite cylinders were tested in bending. One cylinder, the baseline c...
The use of fiber-reinforced composites in aerospace structures has increased dramatically over the p...
Over the past decades, fibre-reinforced composite structures have been increasingly adopted into mai...
A novel low-cost manufacturing process is introduced, referred to as ‘Fabric Steering’. By manipulat...
An investigation of the possible performance improvements of thin circular cylindrical shells throug...
Automated fibre placement technology has made possible to place bands of composite fibre tows along ...
Significant improvements in the mechanical performance of a laminated composite structure can be ach...
Because of their superior mechanical and environmental properties compared to traditional metals, fi...
Fiber reinforced composite materials have gained widespread acceptance for a multitude of applicatio...
AbstractThe current investigation deals with the buckling behavior of variable-stiffness composite p...
Advancements in automated fibre-placement (AFP) technology make it possible to take laminate tailori...
Usage of composite materials in aerospace industry has never been so wide in our world. Starting fro...
Automated fibre placement (AFP) machines are able to place simultaneously several bundles of fibres,...
peer-reviewedComposite materials are finding increasing application, for example in commercial aircr...
Variable stiffness design of composites, where the fiber orientation changes within the plane of lam...
Two carbon-fiber-reinforced composite cylinders were tested in bending. One cylinder, the baseline c...
The use of fiber-reinforced composites in aerospace structures has increased dramatically over the p...
Over the past decades, fibre-reinforced composite structures have been increasingly adopted into mai...
A novel low-cost manufacturing process is introduced, referred to as ‘Fabric Steering’. By manipulat...
An investigation of the possible performance improvements of thin circular cylindrical shells throug...
Automated fibre placement technology has made possible to place bands of composite fibre tows along ...
Significant improvements in the mechanical performance of a laminated composite structure can be ach...
Because of their superior mechanical and environmental properties compared to traditional metals, fi...
Fiber reinforced composite materials have gained widespread acceptance for a multitude of applicatio...
AbstractThe current investigation deals with the buckling behavior of variable-stiffness composite p...
Advancements in automated fibre-placement (AFP) technology make it possible to take laminate tailori...
Usage of composite materials in aerospace industry has never been so wide in our world. Starting fro...
Automated fibre placement (AFP) machines are able to place simultaneously several bundles of fibres,...
peer-reviewedComposite materials are finding increasing application, for example in commercial aircr...
Variable stiffness design of composites, where the fiber orientation changes within the plane of lam...