The study on wear and aging performance of polyetheretherketone,zirconia,and cobalt-chromium alloy crowns
10.13591/j.cnki.kqyx.2025.10.003
- VernacularTitle:聚醚醚酮、氧化锆与钴铬合金全冠磨损与老化性能的研究
- Author:
Shuo YANG
1
;
Zhuoheng LI
1
;
Huinan ZHANG
1
;
Jingzhe GAO
1
;
Yu SUN
1
Author Information
1. 哈尔滨医科大学附属第一医院口腔修复科,黑龙江哈尔滨(150000)
- Publication Type:Journal Article
- Keywords:
PEEK;
biomaterials;
chewing simulation;
dental prosthetics
- From:
STOMATOLOGY
2025;45(10):736-741
- CountryChina
- Language:Chinese
-
Abstract:
Objective To comparatively analyze the friction wear performance,fracture resistance,and displacement resistance before and after aging of full crowns made from PEEK,cobalt-chromium alloy,and zirconia,providing a theoretical basis for the future application of PEEK in crown fabrication.Methods Standard anatomical full crowns of PEEK,cobalt-chromium alloy,and zirconia were fabricated by preparing the upper first premolar and taking silicone rubber impressions,resulting in 25 crowns of each material.The crowns were divided into three groups:Group A(15 crowns,5 from each material),Group B(30 crowns,10 from each materi-al),and Group C(30 crowns,10 from each material,serving as a control).Group A underwent 120 000 chewing simulations under simulated oral physiological conditions,using a stereomicroscope and Micro-image Analysis & Process system to assess and compare wear of antagonists(opposing talc ceramic balls)and material wear.Group B underwent 10 000 thermal cycling aging tests and Group C were served as the control.Universal testing machines were used to evaluate and compare the fracture resistance and displacement re-sistance of Groups B and C.Results ①The wear heights of full crown materials were as follows:cobalt-chromium alloy(0.61±0.05)mm,zirconia(0.81±0.07)mm,and PEEK(0.96±0.04)mm,with PEEK>zirconia>cobalt-chromium alloy(P<0.05).For antagonist wear,the wear heights were cobalt-chromium alloy>zirconia>PEEK(P<0.05).②The fracture resistance of cobalt-chromium alloy be-fore and after aging was(3 665.645±71.166)N and(2 906.830±225.143)N,respectively;for zirconia it was(2 447.825±316.961)N and(1 829.229±72.046)N;and for PEEK crowns it was(1 632.378±53.046)N and(1 074.872±105.491)N,showing cobalt-chromi-um alloy>zirconia>PEEK(P<0.05).The displacement resistance for cobalt-chromium alloy before and after aging was(1 604.630±95.680)N and(1 092.137±77.869)N;for zirconia it was(1 768.851±56.273)N and(1 381.618±62.326)N;and for PEEK crowns it was(1 148.811±70.417)N and(931.723±64.454)N,indicating zirconia>cobalt-chromium alloy>PEEK(P<0.05).The aging degradation of cobalt-chromium alloy's fracture and displacement re-sistance was(758.815±157.734)N and(512.492±34.530)N,re-spectively;for zirconia,it was(618.597±251.281)N and(387.233±7.947)N;and for PEEK crowns,it was(557.506±61.950)N and(217.089±14.589)N,with anti-aging performance:PEEK>zirconia>cobalt-chromium alloy(P<0.05).Conclusion The wear re-sistance,fracture resistance,and displacement resistance of PEEK meet the clinical standards for full crown materials,and PEEK demonstrates good anti-aging performance while effectively protecting opposing teeth.Therefore,PEEK has the potential to become a novel material for full crown fabrication.
