Macroencapsulation of Paraffin in a Polymer–Gypsum Composite Using Granulation Technique

Powała, Krzysztof; Obraniak, Andrzej; Heim, Dariusz; Mrowiec, Andrzej

doi:10.3390/ma15113783

Cited by 4 publications

(2 citation statements)

References 37 publications

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“…9 Granulation is the tight agglomeration of fine powders into granules through specific processes such as bonding and sintering. 10 In the case of the brake friction material industry, on the one hand, granulation technology can reduce the segregation of reinforcing fibers, especially natural fibers, and improve the homogeneity of the composites, which in turn improves the abrasion resistance of the products. On the other hand, it reduces dust pollution, purifies the production environment and facilitates shipment.…”

Section: Introductionmentioning

confidence: 99%

“…In addition to component considerations, the rational choice of preparation process and technology is also key to the design of friction composites 9 . Granulation is the tight agglomeration of fine powders into granules through specific processes such as bonding and sintering 10 . In the case of the brake friction material industry, on the one hand, granulation technology can reduce the segregation of reinforcing fibers, especially natural fibers, and improve the homogeneity of the composites, which in turn improves the abrasion resistance of the products.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of tribological properties of silane‐treated rapeseed straw fiber reinforced friction polymer composites prepared by wet granulation

Zhang,

Qi,

et al. 2023

Polymer Composites

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Reinforcing fibers play a key role in improving the tribological properties of friction polymer composites. Cellulose reinforcing fibers were extracted from rapeseed straw waste and prepared as friction composites based on wet granulation, and the effects of heat and rapeseed straw fiber (RSF) additions on the tribological properties were systematically investigated. The addition of RSF induced an important transformation of the major wear mechanism to abrasive wear, especially at 9 wt%, where the abundant tribo‐films contributed to the stability of the friction coefficients (fade rate 6.8%, recovery rate 106.6%), resulting in a 37.5% increase in wear resistance compared to no addition. Furthermore, XRD, FTIR and SEM analyses showed that the silane‐ethanol solution modification contributed to the good performance of RSF.Highlights Rapeseed straw fiber (RSF) and granulation technology for polymer composites. Addition of RSF transforms adhesive and fatigue wear into abrasive wear. Friction models are developed to clarify the wear mechanism transformation. A 37.5% increase in wear resistance was achieved when RSF was added at 9 wt%.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation of tribological properties of silane‐treated rapeseed straw fiber reinforced friction polymer composites prepared by wet granulation

Zhang,

Qi,

et al. 2023

Polymer Composites

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Physical and mechanical properties of gypsum-based composites reinforced with basalt, glass, and PVA fibers

Liu

Wang

Yan

et al. 2023

Journal of Building Engineering

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Analysis of the Thermal Performance of Isothermal Composite Heat Accumulators Containing Organic Phase-Change Material

2023

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This paper presents the results of material tests, experimental tests and statistical analysis of the thermal performance of three types of heat accumulators containing an organic phase-change material and two materials of a higher thermal conductivity: a copper mesh and porous coke recyclate. The aim of the research was to empirically and statistically compare the increase in the PCM heat distribution through a copper conductor and coke recyclate. The research was conducted in accordance with an incomplete central compositional experimental design and using the Statistica software. The studies of the structure and chemical composition of the coke recyclate used and the empirical testing of the finished heat accumulators confirmed an improvement in the distribution and storage of heat by the accumulator with the phase-change material and coke recyclate compared to the pure phase-change material and copper-conductor accumulators, as the holding time of a temperature of 20°C was extended by seven minutes and nine minutes, respectively. Moreover, the results of the statistical analysis provided answers as to which of the assumed input quantities—initial temperature, battery geometry, and heating temperature— were statistically significant for each of the three battery types considered. The determined approximating functions were verified in terms of the statistical validity of their use for all three types of heat accumulators tested. The results obtained are important answers to the current problems in the design and modification of phase-change heat accumulators applied in the construction industry to reduce the emissivity of structures and increase their energy efficiency.

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Macroencapsulation of Paraffin in a Polymer–Gypsum Composite Using Granulation Technique

Cited by 4 publications

References 37 publications

Evaluation of tribological properties of silane‐treated rapeseed straw fiber reinforced friction polymer composites prepared by wet granulation

Evaluation of tribological properties of silane‐treated rapeseed straw fiber reinforced friction polymer composites prepared by wet granulation

Physical and mechanical properties of gypsum-based composites reinforced with basalt, glass, and PVA fibers

Analysis of the Thermal Performance of Isothermal Composite Heat Accumulators Containing Organic Phase-Change Material

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