TY  - JOUR
AU  - Dózsa, Gergő
AU  - Sántha, Péter
AU  - Tamás-Bényei, Péter
TI  - Fehér töltőanyagot tartalmazó gumikeverékek fejlesztése
JF  - POLIMEREK
J2  - POLIMEREK
VL  - X. évfolyam
PY  - 2024
IS  - 01
SP  - 34
EP  - 40
PG  - 7
SN  - 2415-9492
UR  - https://m2.mtmt.hu/api/publication/34521631
ID  - 34521631
LA  - Hungarian
DB  - MTMT
ER  - 

TY  - CONF
AU  - Sántha, Péter
AU  - Tamás-Bényei, Péter
ED  - Falzon, B.G.
ED  - McCarthy, C.
TI  - MODELLING OF RECYCLED CARBON FIBRE-REINFORCED 3D-PRINTED THERMOPLASTIC COMPOSITES
T2  - 23rd International Conference on Composite Materials, ICCM 2023
PB  - International Committee on Composite Materials
PY  - 2023
UR  - https://m2.mtmt.hu/api/publication/34751469
ID  - 34751469
N1  - Conference code: 197380            
            Export Date: 22 March 2024            
            Correspondence Address: Sántha, P.; Department of Polymer Engineering, Műegyetem rkp. 3, Hungary; email: santhap@pt.bme.hu            
            Funding details: Nemzeti Kutatási, Fejlesztési és Innovaciós Alap, NKFIA            
            Funding details: Nemzeti Kutatási, Fejlesztési és Innovaciós Alap, NKFIA            
            Funding details: Magyar Tudományos Akadémia, MTA, BO/00658/21/6            
            Funding details: Innovációs és Technológiai Minisztérium, ÚNKP-22-5-BME-309            
            Funding text 1: The research reported in this paper and carried out at BME has been supported by the János Bolyai Research Scholarship of the Hungarian Academy of Science (BO/00658/21/6). The research reported in this paper and carried out at BME has been supported by the NRDI Fund (TKP2020 NC, Grant No. BME-NC and TKP2020 IES, Grant No. BMEIE-NAT) based on the charter of bolster issued by the NRDI Office under the auspices of the Ministry for Innovation and Technology. Supported by the ÚNKP-22-5-BME-309 New National Excellence Program of the Ministry for Innovation and Technology from the source of the National Research, Development and Innovation Fund.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Tamás-Bényei, Péter
TI  - The effect of salt water on the properties of basalt fibre reinforced composites
JF  - ACTA MATERIALIA TRANSYLVANICA (EN)
J2  - ACTA MATER TRANSYLV (EN)
VL  - 6
PY  - 2023
IS  - 2
SP  - 105
EP  - 113
PG  - 9
SN  - 2601-8799
DO  - 10.33924/amt-2023-02-08
UR  - https://m2.mtmt.hu/api/publication/34575909
ID  - 34575909
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Tamás-Bényei, Péter
TI  - A sós víz hatása a bazaltszál erősítésű kompozit tulajdonságaira
JF  - ACTA MATERIALIA TRANSYLVANICA (HU)
J2  - ACTA MATER TRANSYLV (HU)
VL  - 6. évf
PY  - 2023
IS  - 2.
SP  - 105
EP  - 113
PG  - 9
SN  - 2601-1883
UR  - https://m2.mtmt.hu/api/publication/34575872
ID  - 34575872
N1  - doi.org/10.33923/amt-2023-02-08
LA  - Hungarian
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Magyar, Gergely
AU  - Poór, Dániel István
AU  - Lukács, Tamás
AU  - Tamás-Bényei, Péter
AU  - Geier, Norbert
TI  - Impact assessment of fillers on the machinability of carbon fibre reinforced polymer composites
JF  - PROCEDIA CIRP
J2  - PROCEDIA CIRP
VL  - 118
PY  - 2023
SP  - 833
EP  - 838
PG  - 6
SN  - 2212-8271
DO  - 10.1016/j.procir.2023.06.143
UR  - https://m2.mtmt.hu/api/publication/34068311
ID  - 34068311
N1  - Budapest University of Technology and Economics, Faculty of Mechanical Engineering, Department of Manufacturing Science and Engineering, Muegyetem rakpart 3, Budapest, 1111, Hungary            
            Budapest University of Technology and Economics, Faculty of Mechanical Engineering, Department of Polymer Engineering, Muegyetem rakpart 3, Budapest, 1111, Hungary            
            MTA-BME Research Group for Composite Science and Technology, Muegyetem rkp. 3, Budapest, 1111, Hungary
AB  - Carbon fibre reinforced polymer (CFRP) composites are widely applied due to their exceptional specific mechanical properties. The mechanical machining of these composites is often required; however, the existing expertise on the machinability of CFRP composites with fillers is deficient. Therefore, the main aim of the present study is to experimentally investigate the machinability of CFRPs with and without milled carbon fillers. Drilling experiments were conducted in different CFRP structures, and the cutting force and microgeometry were analysed through the analysis of variance (ANOVA) technique. The experimental results show that the fillers have a significant influence on the microgeometry. © 2023 Elsevier B.V.. All rights reserved.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Geier, Norbert
AU  - Patra, K.
AU  - Anand, R.S.
AU  - Ashworth, S.
AU  - Balázs, Barnabás Zoltán
AU  - Lukács, Tamás
AU  - Magyar, Gergely
AU  - Tamás-Bényei, Péter
AU  - Xu, J.
AU  - Davim, J.P.
TI  - Corrigendum to “A critical review on mechanical micro-drilling of glass and carbon fibre reinforced polymer (GFRP and CFRP) composites” [Compos B: Eng 254 (2023) 110589]
JF  - COMPOSITES PART B-ENGINEERING
J2  - COMPOS PART B-ENG
VL  - 262
PY  - 2023
SN  - 1359-8368
DO  - 10.1016/j.compositesb.2023.110811
UR  - https://m2.mtmt.hu/api/publication/34004070
ID  - 34004070
N1  - Budapest University of Technology and Economics, Faculty of Mechanical Engineering, Department of Manufacturing Science and Engineering, Budapest, 1111, Hungary            
            Indian Institute of Technology Patna, Department of Mechanical Engineering, Patna, 801103, India            
            Birla Institute of Technology, Department of Mechanical Engineering, Patna Campus, Patna, 800014, India            
            North of England Robotics Innovation Centre, The University of Salford, Greater Manchester, Salford, United Kingdom            
            Budapest University of Technology and Economics, Faculty of Mechanical Engineering, Department of Polymer Engineering, Műegyetem rkp. 3, Budapest, 1111, Hungary            
            ELKH–BME Research Group for Composite Science and Technology, Műegyetem rkp. 3, Budapest, 1111, Hungary            
            Shanghai Jiao Tong University, School of Mechanical Engineering, State Key Laboratory of Mechanical System and Vibration, Shanghai, 200240, China            
            University of Aveiro, Department of Mechanical Engineering, Centre for Mechanical Engineering and Automation (TEMA), Campus Santiago, Aveiro, 3810-193, Portugal            
            Export Date: 8 June 2023            
            CODEN: CPBEF            
            Correspondence Address: Geier, N.; Budapest University of Technology and Economics, Hungary; email: geier.norbert@gpk.bme.hu            
            Correspondence Address: Xu, J.; Shanghai Jiao Tong University, China; email: xujinyang@sjtu.edu.cn
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Geier, Norbert
AU  - Patra, Karali
AU  - Anand, Ravi Shankar
AU  - Ashworth, Sam
AU  - Balázs, Barnabás Zoltán
AU  - Lukács, Tamás
AU  - Magyar, Gergely
AU  - Tamás-Bényei, Péter
AU  - Xu, Jinyang
AU  - Davim, J Paulo
TI  - A critical review on mechanical micro-drilling of glass and carbon fibre reinforced polymer (GFRP and CFRP) composites
JF  - COMPOSITES PART B-ENGINEERING
J2  - COMPOS PART B-ENG
VL  - 254
PY  - 2023
PG  - 21
SN  - 1359-8368
DO  - 10.1016/j.compositesb.2023.110589
UR  - https://m2.mtmt.hu/api/publication/33628631
ID  - 33628631
N1  - Funding Agency and Grant Number: 9th Sino-Hungarian Intergovernmental Scientific and Technological Cooperation Project [2019-2.1.11-TET-2020-00203]; Janos Bolyai Research Scholarship of the Hungarian Academy of Sciences [2021-07]; New National Excellence Program of the Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund [BO/00508/22/6, BO/00658/21/6]; Ministry of Innovation and Technology of Hungary from the National Research, Development and Innovation Fund [1JNKP-22-5-BME-327, 1JNKP-22-5-BME-309];  [BME-NVA-02];  [TKP2021]
            Funding text: This research was implemented thanks to the support of the 2019-2.1.11-TET-2020-00203 project, which encourages scientific and technological cooperation between China and Hungary and the 9th Sino-Hungarian Intergovernmental Scientific and Technological Cooperation Project (Grant No. 2021-07). This research was partly supported by the Janos Bolyai Research Scholarship of the Hungarian Academy of Sciences No. BO/00508/22/6 and BO/00658/21/6. Moreover, by 1JNKP-22-5-BME-327 and 1JNKP-22-5-BME-309 New National Excellence Program of the Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund. The research reported in this paper is part of project no. BME-NVA-02, implemented with the support provided by the Ministry of Innovation and Technology of Hungary from the National Research, Development and Innovation Fund, financed under the TKP2021 funding scheme.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Tamás-Bényei, Péter
AU  - Sántha, Péter
TI  - Potential applications of basalt fibre composites in thermal shielding
JF  - JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
J2  - J THERM ANAL CALORIM
VL  - 147
PY  - 2023
IS  - 23
SP  - 1
PG  - 9
SN  - 1388-6150
DO  - 10.1007/s10973-022-11799-2
UR  - https://m2.mtmt.hu/api/publication/33293126
ID  - 33293126
N1  - Funding Agency and Grant Number: Ministry of Innovation and Technology of Hungary from the National Research, Development and Innovation Fund [BME-NVA-02]; National Research, Development and Innovation Office [NKFIH FK124352]; New National Excellence Program of The Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund [UNKP-22-5-BME-309]; Janos Bolyai Research Scholarship of the Hungarian Academy of Sciences [BO/00658/21/6]
            Funding text: The research reported in this paper is part of Project No. BME-NVA-02, implemented with the support provided by the Ministry of Innovation and Technology of Hungary from the National Research, Development and Innovation Fund, financed under the TKP2021 funding scheme. This research was also supported by the National Research, Development and Innovation Office (NKFIH FK124352) and by the UNKP-22-5-BME-309 New National Excellence Program of The Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund. P. T-B. is thankful for the support of the Janos Bolyai Research Scholarship of the Hungarian Academy of Sciences (BO/00658/21/6). The authors acknowledge Benedek Forrai, Balint Griger and Szilvia Nyari their contribution.
AB  - This present study demonstrates the applicability of basalt fibre-reinforced polymer (BFRP) composite materials in thermal shielding. Basalt fibres are produced from natural, sustainable sources and obtain comparable mechanical performance to commercial glass fibres. In addition to their mechanical strength, BFRPs have excellent chemical and heat resistance. Basalt fibres tend to have a higher thermal stability than their competitor glass fibres. The heat resistance of basalt fibres derives from the volcanic origin of the raw material basalt gabbro. These favourable features make BFRP composites an attractive group of materials for application in several industries. To test the fire resistance of the materials, we produced mono and hybrid composite plates from different types of basalt reinforcement structures (milled fibres, chopped fibres and woven fabric) and epoxy resin. Surface treatment with silane coupling agents significantly improved the mechanical and thermomechanical properties of BFRPs by up to 70%. Three-point bending tests were performed to determine the flexural properties of the composite specimens, and their fire behaviour was evaluated with a horizontal burning test, and a novel jet fire test assisted with infrared thermal imaging. Higher fibre content in hybrid laminates decreased the linear burning rate by 8%, and the maximum surface temperature was approximately 80 °C lower after jet fire impingement compared to woven reinforcement structure.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Sántha, Péter
AU  - Tamás-Bényei, Péter
TI  - Újrahasznosított szénszálat tartalmazó nyomtatófilament fejlesztése additív gyártástechnológiához
JF  - POLIMEREK
J2  - POLIMEREK
VL  - 8
PY  - 2022
IS  - 12
SP  - 361
EP  - 366
PG  - 6
SN  - 2415-9492
UR  - https://m2.mtmt.hu/api/publication/33338011
ID  - 33338011
LA  - Hungarian
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Geier, Norbert
AU  - Poór, Dániel István
AU  - Pereszlai, Csongor
AU  - Tamás-Bényei, Péter
AU  - Xu, Jinyang
TI  - A drilling case study in polymer composites reinforced by virgin and recycled carbon fibres (CFRP and rCFRP) to analyse thrust force and torque
JF  - INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
J2  - INT J ADV MANUFACT TECHNOL
VL  - 120
PY  - 2022
SP  - 2603
EP  - 2615
PG  - 13
SN  - 0268-3768
DO  - 10.1007/s00170-022-08947-1
UR  - https://m2.mtmt.hu/api/publication/32707479
ID  - 32707479
N1  - Department of Manufacturing Science and Engineering, Faculty of Mechanical Engineering, Budapest University of Technology and Economics, Műegyetem rkp. 3, Budapest, 1111, Hungary            
            Department of Polymer Engineering, Faculty of Mechanical Engineering, Budapest University of Technology and Economics, Műegyetem rkp. 3, Budapest, 1111, Hungary            
            MTA–BME Research Group for Composite Science and Technology, Műegyetem rkp. 3, Budapest, 1111, Hungary            
            State Key Laboratory of Mechanical System and Vibration, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China            
Correspondence Address: Geier, N.; Department of Manufacturing Science and Engineering, Műegyetem rkp. 3, Hungary; email: geier.norbert@gpk.bme.hu
LA  - English
DB  - MTMT
ER  -