发现涂层脱落、刀尖破损、扩散磨损为微径铣刀的主要磨损形式。
The coat shed, tool tip breakage, diffusive wear have been observed as the main form of tool wear.
挖掘过程中经暴露在空气中后,油漆下的涂层开始脱落。
After being exposed to air during digging, the coating under the paint began to fall off.
复合涂层的磨损机制主要为硬质颗粒的脆性脱落,同时伴随着轻微的显微切削。
The wear mechanism of the coating attributes to the brittleness shedding of the hard phase particles going with a slight micro-cutting.
针对水箱中高湿热腐蚀环境,介绍了涂层在热水、溶解氧及腐蚀性氯离子等影响因素作用下发生的鼓泡、脱落、湿附着力丧失等现象。
The bubbling, flaking, loss of wet adhesion and et al of the coating film occurred under the action of hot water, dissolved oxygen, corrosive chlorium and et al are introduced.
膜片表面空球和PVA涂层两种保护形式中,空球保护可明显减弱膜片的初期突释,而PVA涂层保护由于其很快脱落,对膜片的突释抑制不明显。
The burst release of wafer protected by blank MS was restrained, however, no obvious restrain effect was observed for wafer protected by PVA for its quickly falling off.
涂层剥落后,切削区产生的瞬时热量聚集使基体粘结相软化,从而导致硬质相颗粒脱落和基体的剧烈磨损。
After the coating broke off, the instantaneous heat builds up and softens the substrate's bonding phase, which results in breaking off of hard phase particles and sharp wear of substrate.
耐溶剂性:涂层可耐受二甲苯、酒精等各种实验室化学品和试剂的长时间浸泡,保持不脱落。
Solvent Resistance: the coating can be soaked by xylene, alcohol and other laboratory chemicals and reagents for a long time, and remain adhesive.
而等离子喷涂的WC涂层经过3次热震试验后就基本开裂和脱落。这充分说明了HVOF涂层具有非常高的抗热疲劳性能。
While the coating deposited by plasma spraying cracked and spalled primarily after endured 3 times thermal shock, which showed that HVOF coating had the excellent resistance ability to thermal shock.
而等离子喷涂的WC涂层经过3次热震试验后就基本开裂和脱落。这充分说明了HVOF涂层具有非常高的抗热疲劳性能。
While the coating deposited by plasma spraying cracked and spalled primarily after endured 3 times thermal shock, which showed that HVOF coating had the excellent resistance ability to thermal shock.
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