磨粒磨损

Sialon陶瓷的磨粒磨损行为

Abrasive wear behavior of Sialon ceramic

在磨损过程中，常规涂层和纳米结构涂层均为剥落磨损为主、含有磨粒磨损的磨损机制。

The wear mechanism of the two coatings was mainly fracture wear , with certain abrasive wear .

WCp增强钢基表层复合材料的两体磨粒磨损性能

The Two-body Abrasive Wear of WC Particle Reinforced Steel Matrix Composites

Al2O3+30m%TiC基复合陶瓷磨粒磨损性能

Abrasion properties of al_2o_3 + 30m % tic matrix composites

不同粒度Al2O3复合涂层的磨粒磨损行为研究

Research on Abrasive Resistance of Composite Coating with Different Size of Al_2O_3

表面处理纳米Al2O3填充PTFE复合材料的磨粒磨损性能

Wear Behavior of Composites of PTFE / Surface Modified Nano Al_2O_3

PEN薄带在沙尘环境中磨粒磨损分形特征研究

Fractal Characteristics of Abrasive Wear of PEN Tape in Sand Dust Environment

生物医用钛合金TiN涂层微磨粒磨损及耐蚀性初步研究

An Elementary Study on Micro-scale Abrasive Wear and Corrosion Properties for TiN Coatings of Medical Titanium Alloys

纳米TiO2对PTFE基复合材料磨粒磨损性能的影响

Effect of Nano-meter TiO _2 on Abrasive Wear Behavior of PTFE Composite

单晶硅片纳米磨粒磨损的AFM模拟

AFM Simulation for a Nano-abrasive Micro-wear on the Silicon

除氧化磨损外，TiN涂层的高温磨损机理为磨粒磨损、塑性变形以及对磨副之间的粘着磨损。

Besides oxidation , the wear mechanisms of TiN coating were abrasive wear , plastic deformation and adhesive wear .

SEM证明了这种协同效应的存在，磨粒磨损和疲劳磨损同时存在并且相互限制。

SEM proved the existence of synergetic effect in the case of coexistence and co-restriction of grind wear and fatigue wear .

熔覆层的磨损机制以磨粒磨损为主，其耐磨性也是随着Fe含量的增加而越来越差。

The wear principle of laser cladding is grain abrasion , and the wear resistance is also worse as iron content is higher .

油润滑时，AlMoSi2材料的磨损机制主要表现为疲劳点蚀和磨粒磨损。

Under oil lubrication , the main wear mechanism of Al / MoSi 2 composite is explained in terms of fatigue pitting and abrasive wear .

而复合材料在干滑动条件下的耐磨性反而稍差于Al-Si合金，其磨损为粘着磨损、磨粒磨损和层离剥落。

While under unlubrication condition , wear resistance of composites is inferior to Al-Si alloy .

稀土和Mo5Si3强韧化MoSi2材料的磨粒磨损特性

Abrasive wear behaviors of MoSi_2 reinforced by rare earth and Mo_5Si_3 under dry friction

分析了刀具的磨损形貌和磨损机理，新型Ti（C，N）金属陶瓷刀具的主要磨损机理为后刀面磨粒磨损。

It can be concluded from the tool wear photograph that the main wear mechanisms of Ti ( C , N ) tools are abrasive wear on tool flank .

冲击磨粒磨损试验表明，加Nb和/或吹N2高锰钢的耐磨性比普通高锰钢的高33%&97%。

The result of the impact abrasive wear test shown that the abrasive resistance of alloy high manganese steels increases by 33 - 97 % .

磨损表面的SEM分析显示粘着磨损比不施加电磁搅拌时明显减少，摩擦磨损机制以磨粒磨损为主。

The SEM analysis of the worn-out surface indicated that the adhesive wear was reduced and the wear mechanism was mainly abrasion after employing electromagnetic stirring .

Sialon陶瓷的冲蚀磨损及磨粒磨损行为

Erosion and Abrasion Behavior of Sialon Ceramic

DLC薄膜的摩擦系数主要与薄膜的硬度及薄膜中sp3的含量有关，DLC薄膜的磨损主要是轻微的磨粒磨损及疲劳磨损。

The main wear mechanisms are found to be slight abrasive and fatigue wears .

由磨损表面SEM观察表明：（Al3Zr+Al2O3）p/Al复合材料的磨损特征为黏着磨损和磨粒磨损的混合型磨损。

The wear feature of ( Al3Zr + Al2O3 ) p / Al composites is the mixed wear of adhesiveness and abrasiveness with the help of SEM .

本文利用MLS－23胶轮磨损试验机对超高分子量聚乙烯（UltraHighMolecularWeightPolyethylene）的磨粒磨损性能进行了研究。

In this paper , the rubber wheel abrasion rig of MLS 23 type was employed to study the abrasion of ultra high molecular weight polyethylene ( UHMWPE ) .

分析了Al2O3/Ti（C，N）/ZrO2纳米陶瓷刀具的磨损形貌和磨损机理，其主要磨损机理是磨粒磨损、粘结磨损。

The wear pattern and mechanisms of Al2O3 / Ti ( C , N ) / ZrO2 nanocomposite ceramic tool and die materials were analyzed . The main wear mechanisms are abrasive and adhesion .

WC-Co热喷涂中温处理涂层的磨损机理为脆性微剥落和磨粒磨损。

The wear mechanics of WC-Co mid-temperature sintered coating is brittle spalling and abrasive wear .

CF/PEEK复合材料与PEEK的磨损机制都主要有粘着磨损和轻微的磨粒磨损。

CF / PEEK composites and the wear mechanism of PEEK are adhesive wear and mild abrasive wear .

利用单摆划痕法的冲击加载特性，研究了Ni-P化学镀层的冲击磨粒磨损性能。

Impact abrasive wear behavior of electroless Ni-P coating was researched by means of single-pass pendulum scratching test characterized by impact loading .

干摩擦条件下，MoS2/SiC复合涂层不同程度降低钢基体的摩擦系数，磨损机制呈现粘着磨损和磨粒磨损综合作用。

MoS_2 / SiC composite coatings declined the friction coefficient under the dry condition , and produced the adherence wear and abrasive wear .

PTFE和纳米高岭土的加入使PPS的主要磨损方式由粘着磨损转变为磨粒磨损。

The main wear mode of PPS is changed from adhesive wear into abrasion wear with the addition of PTFE and kaolin nanoparticles .

SEM分析表明，刀具的主要失效形式为后刀面磨损、前刀面月牙洼磨损和刀刃微崩，刀具磨损的主要讲理是粘结磨损和磨粒磨损。

SEM anlyses show that the tool failure types are main flank wear , face wear and tool tip chip . The principal wear mechanisms are bonding wear and abrasive wear .