Mechanical, tribological, and biological properties of carbon fiber/hydroxyapatite reinforced hybrid composites

Akgül, Yasin; Ahlatçı, Hayrettin; Turan, Muhammet Emre; Şimşir, Hamza; Erden, Mehmet Akif; Sun, Yavuz; Kılıç, Ali

doi:10.1002/pc.25546

Cited by 23 publications

(9 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…On the other hand, in vitro is effective as the first stage of biocompatibility estimations. [38] So many invitro studies are concerned with biocompatibility features investigations [39][40][41][42][43][44][45][46][47] for bone substitute materials applications. However, in vivo investigations provide a better approximation of human conditions.…”

Section: Bone Substitute Materialsmentioning

confidence: 99%

A review: In vivo studies of bioceramics as bone substitute materials

Al-Allaq

Kashan

2022

Nano Select

View full text Add to dashboard Cite

The critical size of bone defects resulting from disease or fractures is a medical problem, usually unable to repair spontaneously by the body's healing mechanisms. Bioceramics are being used for bone tissue regeneration to stimulate the growth of bone cells and guide osseous remodeling. The three most common types of bioceramics used in bone tissue engineering (hydroxyapatite, bioactive glass, and tricalcium phosphate) were selected and studied in vivo animal models, exhibiting favorable bone formation with positive biocompatibility reactions for several animal models. In the study, an extensive review of research was conducted to assess the bone-forming capabilities of scaffolds in bone defects and remodeling in vivo. This review aims to support a large-scale assessment of the capabilities of in vivo studies to generate an optimal regenerative process based on an analysis of the results. In addition to providing an essential reference for the applications of bone tissue engineering, the review will assist in developing novel in vivo investigations.

show abstract

Section: Bone Substitute Materialsmentioning

confidence: 99%

A review: In vivo studies of bioceramics as bone substitute materials

Al-Allaq

Kashan

2022

Nano Select

View full text Add to dashboard Cite

show abstract

“…The wear properties of composites play an important role in the application of these materials in engineering applications [24]. The wear rates of produced samples under three applied loads (20, 30, and 40 N) were presented in Figure 6.…”

Section: Wear Propertiesmentioning

confidence: 99%

Hi̇drotermal Karbon İçeri̇ği̇ni̇n Poli̇eti̇len Matri̇sli̇ Kompozi̇tleri̇n Aşinma Özelli̇kleri̇ne Etki̇si̇

Akgül

2022

Eskişehir Technical University Journal of Science and Technology a - Applied Sciences and Engineering

View full text Add to dashboard Cite

Compared to commonly use carbonaceous materials such as carbon nanotubes or graphene nanoplatelets, hydrothermal carbons (HTCs) are obtained with environmentally friendly approaches at a lower cost. Although HTCs have a wide application area such as batteries, magnetic materials, supercapacitors, adsorbent materials, etc., there are few studies on the usage of HTC as reinforcement material for composites. In this study, polyethylene matrix composites containing different amounts (0.5 wt.%, 1 wt.%, 2 wt.%) of HTCs were fabricated via the injection molding process. The effect of HTCs content on the wear properties of polyethylene matrix composites was investigated. Reciprocating wear tests were performed applying different loads at dry sliding conditions. To correlate with wear results, the mechanical properties of samples were determined by tensile and impact tests. Also, FTIR and DTA analyzes were conducted to understand the effect of HTCs on the structural and thermal properties of composites. Results show that the addition of HTCs led to the enhancement of mechanical and tribological properties of polyethylene at lower amount reinforcement ratios. Thus, it can be said that HTCs could be alternative carbonaceous reinforcement material for polymer matrix composites.

show abstract

“…[1][2][3][4][5] The fascinating properties of CFRP, including its exceptional strength and high stiffness, low thermal expansion coefficient, and biological compatibility, account for its broad use. [6][7][8][9] For polymers, thermoplastic polymers possess better properties than thermoset polymers, and the most representative polymer is polyaryletherketone (PAEK). Polyether ether ketone (PEEK) is an important class of PAEK resins, which was developed and commercialized by ICI in 1978.…”

Section: Introductionmentioning

confidence: 99%

Enhancing interfacial adhesion of carbon fiber/poly(phthalazinone ether ketone) composites by the hybrid sizing agent of hydroxyapatite‐reinforced PAEK‐COOH

Liu,

Mei,

Cheng

et al. 2023

Polymer Composites

View full text Add to dashboard Cite

Improving the interfacial adhesion of carbon fiber (CF)/polymer composite is an urgent demand to enhance its mechanical properties. A kind of poly(aryl ether ketone) with carboxyl groups (PAEK‐COOH) was newly synthesized. PAEK‐COOH is similar to the thermal properties of PPEK matrix. Hydroxyapatite (HAp) was easily dispersed in an NMP solution containing PAEK‐COOH. Different kinds of hybrid sizing agents were obtained for preparing the prepreg through the solution impregnation. The hot‐pressing method was employed to produce the laminated composites. Flexural strength, flexural modulus and interlamellar shear strength (ILSS) of 0HP@CF/PPEK composites were improved by 8.8%, 17.3%, and 14.7%, respectively, in comparison to desized CF/PPEK. The interface bonding between CF and PPEK was improved by the addition of PAEK‐COOH sizing agent. Meanwhile, compared with desized CF/PPEK laminates, flexural strength, flexural modulus and ILSS of 5HP@CF/PPEK composites were enhanced by 63.5%, 87.4%, and 40.9%, respectively. The crack propagation path became dispersed and the stress was effectively absorbed when the sizing agent containing nano‐hydroxyapatite particles. By characterizing and reconstructing the transverse and longitudinal fracture in composite materials, the failure process of the composites under the action of stress was explained, and the interface theories of CF reinforced polymer were further explored.Highlights A kind of polyaryl ether ketone containing carboxyl functional group (PAEK‐COOH)was newly synthesized. HAp was distributed in the polymer sizing agent to obtain a HAp/PAEK‐COOH hybrid sizing agent. The interfacial adhesion of CF/PPEK composite was greatly improved by the hybrid sizing agent.

show abstract

Mechanical, tribological, and biological properties of carbon fiber/hydroxyapatite reinforced hybrid composites

Cited by 23 publications

References 33 publications

A review: In vivo studies of bioceramics as bone substitute materials

A review: In vivo studies of bioceramics as bone substitute materials

Hi̇drotermal Karbon İçeri̇ği̇ni̇n Poli̇eti̇len Matri̇sli̇ Kompozi̇tleri̇n Aşinma Özelli̇kleri̇ne Etki̇si̇

Enhancing interfacial adhesion of carbon fiber/poly(phthalazinone ether ketone) composites by the hybrid sizing agent of hydroxyapatite‐reinforced PAEK‐COOH

Contact Info

Product

Resources

About