Development of an Electrically Conductive MDF Panel—Evaluation of Carbon Content and Resin Type

Tschannen, Christof; Thömen, Heiko; Shalbafan, Ali (2023). Development of an Electrically Conductive MDF Panel—Evaluation of Carbon Content and Resin Type Polymers, 15(4), pp. 1-16. MDPI doi.org/10.3390/polym15040912

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Electronics in furniture and construction materials, in particular technologies which allow for a flexible and cable-free connection of electronics in such materials, are gaining broader interest. This study shows a further development of a concept to obtain highly conductive medium-density fibreboard panels (MDF) for furniture application. MDF were produced using two mixing processes (wet and dry) for wood and carbon fibres to investigate the effects of resin type (urea formaldehyde (UF) and polymeric methylene diphenyl diisocyanate (pMDI)) and carbon fibre content on their mechanical, physical, and electrical properties. Overall, wet mixed fibres showed better electrical but reduced mechanical properties. Modulus of elasticity (MOE) and bending strength (MOR) values of 3500 MPa and 35 MPa, respectively, and internal bond (IB) values of 0.45 to 0.65 MPa with electrical conductivities of up to 230 S/m were achieved. The technology has been successfully implemented in a demonstration object showing the application in a small piece of furniture.

Item Type:

Journal Article (Original Article)

Division/Institute:

School of Architecture, Wood and Civil Engineering
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Wood Chemistry
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Adhesive Technology
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Material Emissions
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Furniture Development
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Polymer Chemistry
School of Architecture, Wood and Civil Engineering > Institute for Materials and Wood Technology > Composite Materials
BFH Centres and strategic thematic fields > BFH Centre for Wood - Resource and Material
School of Architecture, Wood and Civil Engineering > Institut for Building Materials and Biobased Products IBBM
School of Architecture, Wood and Civil Engineering > Institut for Building Materials and Biobased Products IBBM > Biopolymers and Wood Chemistry group FGBH
School of Architecture, Wood and Civil Engineering > Institut for Building Materials and Biobased Products IBBM > Wood Modification and Gluing Technology group FGHV
School of Architecture, Wood and Civil Engineering > Institut for Building Materials and Biobased Products IBBM > Materials and Life Cycle Assessment group FGWO

Name:

Tschannen, Christof;
Thömen, Heiko and
Shalbafan, Ali

Subjects:

T Technology > T Technology (General)
T Technology > TA Engineering (General). Civil engineering (General)
T Technology > TH Building construction

ISSN:

2073-4360

Publisher:

MDPI

Projects:

Projects 46810 not found.

Language:

English

Submitter:

Corinne Amstutz Hugi

Date Deposited:

15 Mar 2023 10:15

Last Modified:

15 Mar 2023 10:15

Publisher DOI:

doi.org/10.3390/polym15040912

Related URLs:

ARBOR DOI:

10.24451/arbor.18935

URI:

https://arbor.bfh.ch/id/eprint/18935

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