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Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
by Ferreira, Rafael Thiago Luiz , Larsson, Ragnar , Resende, Hugo Borelli , Blinzler, Brina Jane , Dutra, Thiago Assis
in 3D-printed composite materials / additive manufacturing / Brittleness / CAD / Composite materials / Compressive strength / Computer aided design / Crack initiation / Criteria / Envelopes / failure of composites / Fiber composites / Fiber reinforced polymers / Inclination / Investigations / Manufacturing / Mechanical properties / Polymer matrix composites / Printed materials / Printers / puck and schürmann failure criterion / Researchers / Shear strength / Three dimensional composites / Three dimensional printing / Transition points
2020
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Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
by Ferreira, Rafael Thiago Luiz , Larsson, Ragnar , Resende, Hugo Borelli , Blinzler, Brina Jane , Dutra, Thiago Assis
in 3D-printed composite materials / additive manufacturing / Brittleness / CAD / Composite materials / Compressive strength / Computer aided design / Crack initiation / Criteria / Envelopes / failure of composites / Fiber composites / Fiber reinforced polymers / Inclination / Investigations / Manufacturing / Mechanical properties / Polymer matrix composites / Printed materials / Printers / puck and schürmann failure criterion / Researchers / Shear strength / Three dimensional composites / Three dimensional printing / Transition points
2020
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Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
by Ferreira, Rafael Thiago Luiz , Larsson, Ragnar , Resende, Hugo Borelli , Blinzler, Brina Jane , Dutra, Thiago Assis
in 3D-printed composite materials / additive manufacturing / Brittleness / CAD / Composite materials / Compressive strength / Computer aided design / Crack initiation / Criteria / Envelopes / failure of composites / Fiber composites / Fiber reinforced polymers / Inclination / Investigations / Manufacturing / Mechanical properties / Polymer matrix composites / Printed materials / Printers / puck and schürmann failure criterion / Researchers / Shear strength / Three dimensional composites / Three dimensional printing / Transition points
2020

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Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials
Journal Article

Expanding Puck and Schürmann Inter Fiber Fracture Criterion for Fiber Reinforced Thermoplastic 3D-Printed Composite Materials

Ferreira, Rafael Thiago Luiz,
Larsson, Ragnar,
Resende, Hugo Borelli,
Blinzler, Brina Jane,
Dutra, Thiago Assis
2020
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Overview
The present work expands the application of Puck and Schürmann Inter-Fiber Fracture criterion to fiber reinforced thermoplastic 3D-printed composite materials. The effect of the ratio between the transverse compressive strength and the in-plane shear strength is discussed and a new transition point between the fracture conditions under compressive loading is proposed. The recommended values of the inclination parameters, as well as their effects on the proposed method, are also discussed. Failure envelopes are presented for different 3D-printed materials and also for traditional composite materials. The failure envelopes obtained here are compared to those provided by the original Puck and Schürmann criterion and to those provided by Gu and Chen. The differences between them are analyzed with the support of geometrical techniques and also statistical tools. It is demonstrated that the Expanded Puck and Schürmann is capable of providing more suitable failure envelopes for fiber reinforced thermoplastic 3D-printed composite materials in addition to traditional semi-brittle, brittle and intrinsically brittle composite materials.
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Publisher
MDPI AG,MDPI
Subject

3D-printed composite materials

/ additive manufacturing

/ Brittleness

/ CAD

/ Composite materials

/ Compressive strength

/ Computer aided design

/ Crack initiation

/ Criteria

/ Envelopes

/ failure of composites

/ Fiber composites

/ Fiber reinforced polymers

/ Inclination

/ Investigations

/ Manufacturing

/ Mechanical properties

/ Polymer matrix composites

/ Printed materials

/ Printers

/ puck and schürmann failure criterion

/ Researchers

/ Shear strength

/ Three dimensional composites

/ Three dimensional printing

/ Transition points

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