Search Menu
DOE PAGES title logo U.S. Department of Energy
Office of Scientific and Technical Information
Search Scholarly Publications

Title: Additive manufacturing of sandwich panels with continuous fiber reinforced high modulus composite facings

Journal Article · · Polymer Composites
DOI: https://doi.org/10.1002/pc.29196 · OSTI ID:2476277
ORCiD logo [1];  [1]
  1. Composite Materials, Manufacture and Structures Laboratory Colorado State University Fort Collins Colorado USA
+ Show Author Affiliations

Abstract An improved approach consisting of a combination of fiber placement and fused filament fabrication is introduced for the additive manufacture (AM) of structural grade sandwich beams. Here, sandwich beams are additively manufactured using in‐situ deposition and consolidation of continuous fiber unidirectional facings made from a commingled yarn system of e‐glass fiber (~50% vol.) and amorphous PET, and a hexagonal honeycomb core structure made from PETG. Both facings and the sandwich core are manufactured on a single machine, in one sequence (skin‐core‐skin), employing the benefit of matrix compatibility to create autohesion at the interfaces. Flexural and transverse shear rigidity are determined experimentally and compared with analytical predictions and show correlation to within 3%. Flexural strength and core shear strength are also measured. Post‐mortem examinations show that core fracture and core facing debond were the dominant failure mode in flexure. Single cantilever beam tests were performed to evaluate core facing debond toughness. Subsequently, surface preheat using infrared heaters was utilized to increase autohesion between core and facing. The results show debond toughness was increased 4 times using infrared heating. This research effort presents a manufacturing approach that has the potential for the AM of stiff, well bonded, structural grade sandwich beams, in an integrated sequence, employing in‐situ consolidation to the facings, without the need for the use of intermediate adhesives for skin‐to‐core bonding. Highlights An improved additive manufacturing technique for making sandwich panels is developed. Sandwich panel facings have fiber volume fractions of approximately 50%. Surface preheat improves core‐to‐facing debond toughness by a factor of 4. Top and bottom facings are consolidated during manufacture leading to better properties. Experimental results are compared to analytical predictions and show good correlation.

Research Organization:
Colorado State University, Fort Collins, CO (United States)
Sponsoring Organization:
USDOE; USDOE Office of Energy Efficiency and Renewable Energy (EERE), Energy Efficiency Office. Advanced Materials & Manufacturing Technologies Office (AMMTO)
Grant/Contract Number:
EE0009404
OSTI ID:
2476277
Journal Information:
Polymer Composites, Journal Name: Polymer Composites Journal Issue: 4 Vol. 46; ISSN 0272-8397
Publisher:
Wiley Blackwell (John Wiley & Sons)Copyright Statement
Country of Publication:
United States
Language:
English

References (27)

Processing, mechanical properties, and interfacial bonding of a thermoplastic core‐foam/composite‐skin sandwich panel journal September 2010
A test technique for assessing core-skin adhesion in composite sandwich structures journal January 1994
Advances in fusion bonding techniques for joining thermoplastic matrix composites: a review journal June 2001
Continuous lattice fabrication of ultra-lightweight composite structures journal December 2017
3D printing of composite sandwich structures using continuous carbon fiber and fiber tension journal October 2018
Material extrusion additive manufacturing of continuous fibre reinforced polymer matrix composites: A review and outlook journal November 2021
Flexural response of 3D printed sandwich composite journal May 2021
3D printing of syntactic foam cored sandwich composite journal November 2020
Autohesion of polymers journal August 2016
Material Extrusion of Continuous Fiber Reinforced Plastics Using Commingled Yarn journal January 2017
A new test geometry for characterizing skin-core adhesion in thin-skinned sandwich structures journal August 2000
Three-dimensional printing of continuous-fiber composites by in-nozzle impregnation journal March 2016
A theory crack healing in polymers journal October 1981
Using the Climbing Drum Peel (CDP) Test to Obtain a GIC Value for Core/Face Sheet Bonds journal December 2007
Sizing a single cantilever beam specimen for characterizing facesheet–core debonding in sandwich structure journal April 2011
Effect of Processing Parameters on Consolidation Quality of GF/PP Commingled Yarn Based Composites journal July 2000
A review of mode I dominant interfacial fracture toughness test methods of skin-core bonding for thermoplastic composite sandwich structures journal April 2022
Experimental and statistical study on the effect of process parameters on the quality of continuous fiber composites made via additive manufacturing journal March 2024
Optimal design of sandwich panels with hybrid core journal November 2017
Mechanical performance of three-dimensional printed sandwich composite with a high-flexible core
  • Ahmed, Waleed; Ahmed, Sidra; Alnajjar, Fady
  • Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, Vol. 235, Issue 6 https://doi.org/10.1177/14644207211011729
journal April 2021
Investigation of deformation behavior of PETG-FDM-printed metamaterials with pantographic substructures based on different slicing strategies journal January 2021
Characterization of the Performance of 3D Printed Honeycomb Cores for Resin Infused Sandwich Panels conference January 2023
A DMA-Based Approach to Quality Evaluation of Digitally Manufactured Continuous Fiber-Reinforced Composites from Thermoplastic Commingled Tow journal February 2022
Digital Manufacture of a Continuous Fiber Reinforced Thermoplastic Matrix Truss Core Structural Panel Using Off-the-Tool Consolidation journal November 2022
FDM-Based 3D Printing of Polymer and Associated Composite: A Review on Mechanical Properties, Defects and Treatments journal July 2020
3D Printing of Fibre-Reinforced Thermoplastic Composites Using Fused Filament Fabrication—A Review journal September 2020
A Review of Sandwich Composite Structures with 3D Printed Honeycomb Cores journal June 2022

Similar Records

Related Subjects

17 WIND ENERGY
additive manufacturing
commingled yarn
continuous fiber composites
flexural properties
honeycomb sandwich panels
infrared heating
single cantilever beam