The trends and challenges of fiber reinforced additive manufacturing
In the last few years, utilizing fiber reinforced additive manufacturing (FRAM)-based components in several industries has become quite popular. Compared to conventional AM technologies, FRAM offered complementary solutions to their needs. In general, fibers have been traditionally used in many manu...
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| Published in | International journal of advanced manufacturing technology Vol. 102; no. 5-8; pp. 1801 - 1818 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Springer London
01.06.2019
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | In the last few years, utilizing fiber reinforced additive manufacturing (FRAM)-based components in several industries has become quite popular. Compared to conventional AM technologies, FRAM offered complementary solutions to their needs. In general, fibers have been traditionally used in many manufacturing processes for various reasons. However, using conventional methods, there are obstacles in obtaining the desired complex geometries and low setup costs. AM offers possible avoidance of these limitations. Shape complexity, infill density, and manufacturing lead times are no longer barriers. Bridging AM with fiber reinforced materials offers a vast opportunity for lightweight and strong parts. Depending on the affinity, fibers with different structures can be mixed with different matrix materials and, thus, create stronger parts with improved mechanical properties. Process parameters like raster angle, infill speed, layer thickness, and nozzle temperature also strongly impact physical properties of FRAM products and are considered carefully. FRAM-based components are used in many industries such as aerospace, motorsports, and biomedicine, where the weight, strength, and complexity of parts are critical. Hence, numerous industrial companies and research facilities are investigating the implementation and adaptation of FRAM to their requirements. Studies are generally conducted on new materials, new FRAM technologies, the effect of fiber orientations and fraction on the performance of parts, improving the printing parameters, and other subjects. This study reports the current trends and challenges that FRAM is bringing to AM ecosystem. |
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| AbstractList | In the last few years, utilizing fiber reinforced additive manufacturing (FRAM)-based components in several industries has become quite popular. Compared to conventional AM technologies, FRAM offered complementary solutions to their needs. In general, fibers have been traditionally used in many manufacturing processes for various reasons. However, using conventional methods, there are obstacles in obtaining the desired complex geometries and low setup costs. AM offers possible avoidance of these limitations. Shape complexity, infill density, and manufacturing lead times are no longer barriers. Bridging AM with fiber reinforced materials offers a vast opportunity for lightweight and strong parts. Depending on the affinity, fibers with different structures can be mixed with different matrix materials and, thus, create stronger parts with improved mechanical properties. Process parameters like raster angle, infill speed, layer thickness, and nozzle temperature also strongly impact physical properties of FRAM products and are considered carefully. FRAM-based components are used in many industries such as aerospace, motorsports, and biomedicine, where the weight, strength, and complexity of parts are critical. Hence, numerous industrial companies and research facilities are investigating the implementation and adaptation of FRAM to their requirements. Studies are generally conducted on new materials, new FRAM technologies, the effect of fiber orientations and fraction on the performance of parts, improving the printing parameters, and other subjects. This study reports the current trends and challenges that FRAM is bringing to AM ecosystem. |
| Author | Alifui-Segbaya, Frank Nanami, Norimichi Gupta, Ankit Elliott, Amy Fidan, Ismail Imeri, Astrit Nasirov, Aslan Hasanov, Seymur |
| Author_xml | – sequence: 1 givenname: Ismail surname: Fidan fullname: Fidan, Ismail email: ifidan@tntech.edu organization: Department of Manufacturing & Engineering Technology, Tennessee Technological University – sequence: 2 givenname: Astrit surname: Imeri fullname: Imeri, Astrit organization: Department of Mechanical Engineering & Center for Manufacturing Research, Tennessee Technological University – sequence: 3 givenname: Ankit surname: Gupta fullname: Gupta, Ankit organization: Department of Mechanical Engineering & Center for Manufacturing Research, Tennessee Technological University – sequence: 4 givenname: Seymur surname: Hasanov fullname: Hasanov, Seymur organization: Department of Mechanical Engineering & Center for Manufacturing Research, Tennessee Technological University – sequence: 5 givenname: Aslan surname: Nasirov fullname: Nasirov, Aslan organization: Department of Mechanical Engineering & Center for Manufacturing Research, Tennessee Technological University – sequence: 6 givenname: Amy surname: Elliott fullname: Elliott, Amy organization: Manufacturing Demonstration Facility, Oak Ridge National Laboratory – sequence: 7 givenname: Frank surname: Alifui-Segbaya fullname: Alifui-Segbaya, Frank organization: School of Dentistry and Oral Health, Griffith University – sequence: 8 givenname: Norimichi surname: Nanami fullname: Nanami, Norimichi organization: Department of Mechanical Engineering, Gifu University |
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| Keywords | Reinforcement Fiber reinforced additive manufacturing Polymer Matrix Composite Fiber |
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| SubjectTerms | Additive manufacturing Aerospace industry CAE) and Design Complexity Computer-Aided Engineering (CAD Engineering Fiber reinforced materials Industrial and Production Engineering Matrix materials Mechanical Engineering Mechanical properties Media Management Nozzles Original Article Physical properties Process parameters Research facilities Thickness Trends |
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| Title | The trends and challenges of fiber reinforced additive manufacturing |
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