玻璃生產線的磨損如何解決，目前關于中空玻璃生產線磨損尚無統一的分類方法，大體可概括為兩類：一類是根據磨損結果對磨損表觀的描述，如點蝕磨損、膠合磨損、擦傷磨損等；另一類是根據摩擦機理，分磨粒磨損、粘著磨損、疲勞磨損、腐蝕磨損等。

　　How to solve the wear and tear of glass production lines? Currently, there is no unified classification method for the wear of insulated glass production lines, which can be roughly summarized into two categories: one is the description of the wear surface based on the wear results, such as pitting wear, bonding wear, abrasion wear, etc; Another type is based on the friction mechanism, which includes abrasive wear, adhesive wear, fatigue wear, corrosion wear, etc.

　　1.粘著磨損

　　1. Adhesive wear

　　在切向力的作用下，摩擦副表面的吸附膜和服污膜遭到破壞，使表面的輪廓峰在相互作用的各點處發生冷焊，由于相對運動，材料便從一個表面轉移到另一個表面，形成粘著磨損。在此過程中，有時材料也會再次附著回原表面，出現逆轉移，或脫離所粘附的表面而成為游離顆粒。載荷越大，表面溫度越高，粘著的現象也越嚴重，嚴重的粘著磨損會造成運動副咬死，粘著磨損是金屬摩擦副之間最普遍的一種磨損形式。

　　Under the action of tangential force, the adsorption film and fouling film on the surface of the friction pair are damaged, causing the contour peaks of the surface to undergo cold welding at various points of interaction. Due to relative motion, the material is transferred from one surface to another, forming adhesive wear. During this process, sometimes the material may reattach to the original surface, undergo reverse transfer, or detach from the adhered surface and become free particles. The larger the load, the higher the surface temperature, and the more severe the adhesion phenomenon. Severe adhesion wear can cause the motion pair to bite, and adhesion wear is the most common form of wear between metal friction pairs.

　　為了減輕粘著磨損，可采取以下措施：①合理選擇配對材料。同種金屬比異種金屬易于粘著;脆性材料比塑性材料的抗粘著能力強。進行表面處理(如表面熱處理、電鍍、噴涂等)可防止粘著磨損的發生。②限制摩擦表面的溫度。⑤采用含油性和極壓添加劑的潤滑劑。④控制壓強。

　　To reduce adhesive wear, the following measures can be taken: ① Reasonably select matching materials. Same metal is easier to adhere than dissimilar metal; Brittle materials have stronger anti adhesion ability than plastic materials. Surface treatment (such as surface heat treatment, electroplating, spraying, etc.) can prevent adhesive wear from occurring Limit the temperature of the friction surface. ⑤ Lubricants containing oil and extreme pressure additives are used Control the pressure.

　　2.磨粒磨損

　　2. Abrasive wear

　　中空玻璃生產線磨粒磨損從外部進入摩棕面間的游離硬質顆粒(如塵土或磨損造成的金屬微粒)或硬的輪廓峰尖，在較軟材料表面犁刨出很多溝紋而引起材料脫落的現象，稱為磨粒磨損。磨粒磨損與摩擦副材料的硬度和磨粒的硬度有關。有時選用較便宜的材料，定期更換易磨損的零件，更符合經濟原則。

　　The phenomenon of abrasive wear in the production line of insulating glass refers to the free hard particles (such as dust or metal particles caused by wear) or hard contour peaks that enter the brown surface from the outside and plow many grooves on the surface of softer materials, causing material detachment. The abrasive wear is related to the hardness of the friction pair material and the hardness of the abrasive particles. Sometimes choosing cheaper materials and regularly replacing parts that are prone to wear is more in line with economic principles.

　　3.疲勞磨損

　　3. Fatigue wear and tear

　　在變接觸應力的作用下，如果該應力超過材料相應的接觸疲勞極限，就會在摩擦副表面或表面以下一定深度處形成疲勞裂紋，隨著裂紋的擴展及相互連接，金屬微粒便會從零件工作表面上脫落，導致表面出現麻點狀損傷現象.即形成疲勞磨損或稱疲勞點蝕。

　　Under the action of variable contact stress, if the stress exceeds the corresponding contact fatigue limit of the material, fatigue cracks will form on the surface of the friction pair or at a certain depth below the surface. As the cracks propagate and interconnect, metal particles will detach from the working surface of the part, resulting in surface pitting damage It forms fatigue wear or fatigue pitting corrosion.

　　為了提高零件表面的疲勞壽命，除應合理選擇摩擦副材料外，還應注意：①合理選擇零件接觸面的表面粗糙度。一般情況下表面粗糙度值越小，疲勞壽命越長。②合理選擇潤滑油粘度。粘度低的油易滲入裂紋，加速裂紋擴展。粘度高的潤滑油有利于接觸應力均勻分布，提高抗疲勞磨損的能力。在潤滑油中加入極壓添加劑或固體潤滑劑，能提高接觸表面的抗疲勞性能。③合理選擇零件接觸面的硬度。以軸承鋼為例，硬度為62HRc時，抗疲勞磨損能力最高，增加或降低表面硬度，壽命都有較大的降低。

　　In order to improve the fatigue life of the surface of the parts, in addition to selecting friction materials reasonably, attention should also be paid to: ① selecting the surface roughness of the contact surface of the parts reasonably. In general, the smaller the surface roughness value, the longer the fatigue life Reasonably choose the viscosity of lubricating oil. Oil with low viscosity is prone to penetrate cracks and accelerate crack propagation. Lubricating oil with high viscosity is conducive to uniform distribution of contact stress and improves the ability to resist fatigue wear. Adding extreme pressure additives or solid lubricants to lubricating oil can improve the fatigue resistance of the contact surface Reasonably select the hardness of the contact surface of the parts. Taking bearing steel as an example, when the hardness is 62HRc, the ability to resist fatigue wear is the highest. Increasing or decreasing the surface hardness significantly reduces the service life.

　　4.腐蝕磨損

　　4. Corrosion and wear

　　中空玻璃生產線腐蝕磨損摩擦過程中，金屬與周圍介質(如空氣中的酸、潤滑油等)發生化學或電化學反應而引起的表面損傷，稱為腐蝕磨損。其中氧化磨損最為常見，這是金屬摩擦附在氧化性介質中工作時，接觸表面反復生成、磨去氧化膜的磨損現象，實際上是化學氧化和機械磨損兩種作用相繼進行的過程。氧化磨損的大小取決于氧化膜的連接強度和氧化速度。

　　The surface damage caused by chemical or electrochemical reactions between metal and surrounding media (such as acids, lubricants, etc. in the air) during the corrosion, wear, and friction process of the insulated glass production line is called corrosion wear. Among them, oxidative wear is the most common, which is a wear phenomenon in which the contact surface repeatedly generates and grinds off the oxide film when metal friction is attached to an oxidizing medium. In fact, it is a process in which chemical oxidation and mechanical wear occur successively. The magnitude of oxidative wear depends on the connection strength and oxidation rate of the oxide film.

　　除了上述4種基本中空玻璃生產線磨損類型外，還有一些磨損現象可視為是基本磨損類型的派生或復合。前者如浸蝕磨損，后者如微動磨損。

　　In addition to the four basic types of wear on insulated glass production lines mentioned above, there are also some wear phenomena that can be considered as derivatives or composites of the basic wear types. The former is like erosion wear, while the latter is like micro motion wear.

　　玻璃生產線的磨損如何解決，目前關于中空玻璃生產線磨損尚無統一的分類方法，大體可概括為兩類：一類是根據磨損結果對磨損表觀的描述，如點蝕磨損、膠合磨損、擦傷磨損等；另一類是根據摩擦機理，分磨粒磨損、粘著磨損、疲勞磨損、腐蝕磨損等。

　　How to solve the wear and tear of glass production lines? Currently, there is no unified classification method for the wear of insulated glass production lines, which can be roughly summarized into two categories: one is the description of the wear surface based on the wear results, such as pitting wear, bonding wear, abrasion wear, etc; Another type is based on the friction mechanism, which includes abrasive wear, adhesive wear, fatigue wear, corrosion wear, etc.

　　1.粘著磨損

　　1. Adhesive wear

　　在切向力的作用下，摩擦副表面的吸附膜和服污膜遭到破壞，使表面的輪廓峰在相互作用的各點處發生冷焊，由于相對運動，材料便從一個表面轉移到另一個表面，形成粘著磨損。在此過程中，有時材料也會再次附著回原表面，出現逆轉移，或脫離所粘附的表面而成為游離顆粒。載荷越大，表面溫度越高，粘著的現象也越嚴重，嚴重的粘著磨損會造成運動副咬死，粘著磨損是金屬摩擦副之間最普遍的一種磨損形式。

　　Under the action of tangential force, the adsorption film and fouling film on the surface of the friction pair are damaged, causing the contour peaks of the surface to undergo cold welding at various points of interaction. Due to relative motion, the material is transferred from one surface to another, forming adhesive wear. During this process, sometimes the material may reattach to the original surface, undergo reverse transfer, or detach from the adhered surface and become free particles. The larger the load, the higher the surface temperature, and the more severe the adhesion phenomenon. Severe adhesion wear can cause the motion pair to bite, and adhesion wear is the most common form of wear between metal friction pairs.

　　為了減輕粘著磨損，可采取以下措施：①合理選擇配對材料。同種金屬比異種金屬易于粘著;脆性材料比塑性材料的抗粘著能力強。進行表面處理(如表面熱處理、電鍍、噴涂等)可防止粘著磨損的發生。②限制摩擦表面的溫度。⑤采用含油性和極壓添加劑的潤滑劑。④控制壓強。

　　To reduce adhesive wear, the following measures can be taken: ① Reasonably select matching materials. Same metal is easier to adhere than dissimilar metal; Brittle materials have stronger anti adhesion ability than plastic materials. Surface treatment (such as surface heat treatment, electroplating, spraying, etc.) can prevent adhesive wear from occurring Limit the temperature of the friction surface. ⑤ Lubricants containing oil and extreme pressure additives are used Control the pressure.

　　2.磨粒磨損

　　2. Abrasive wear

　　中空玻璃生產線磨粒磨損從外部進入摩棕面間的游離硬質顆粒(如塵土或磨損造成的金屬微粒)或硬的輪廓峰尖，在較軟材料表面犁刨出很多溝紋而引起材料脫落的現象，稱為磨粒磨損。磨粒磨損與摩擦副材料的硬度和磨粒的硬度有關。有時選用較便宜的材料，定期更換易磨損的零件，更符合經濟原則。

　　The phenomenon of abrasive wear in the production line of insulating glass refers to the free hard particles (such as dust or metal particles caused by wear) or hard contour peaks that enter the brown surface from the outside and plow many grooves on the surface of softer materials, causing material detachment. The abrasive wear is related to the hardness of the friction pair material and the hardness of the abrasive particles. Sometimes choosing cheaper materials and regularly replacing parts that are prone to wear is more in line with economic principles.

　　3.疲勞磨損

　　3. Fatigue wear and tear

　　在變接觸應力的作用下，如果該應力超過材料相應的接觸疲勞極限，就會在摩擦副表面或表面以下一定深度處形成疲勞裂紋，隨著裂紋的擴展及相互連接，金屬微粒便會從零件工作表面上脫落，導致表面出現麻點狀損傷現象.即形成疲勞磨損或稱疲勞點蝕。

　　Under the action of variable contact stress, if the stress exceeds the corresponding contact fatigue limit of the material, fatigue cracks will form on the surface of the friction pair or at a certain depth below the surface. As the cracks propagate and interconnect, metal particles will detach from the working surface of the part, resulting in surface pitting damage It forms fatigue wear or fatigue pitting corrosion.

　　為了提高零件表面的疲勞壽命，除應合理選擇摩擦副材料外，還應注意：①合理選擇零件接觸面的表面粗糙度。一般情況下表面粗糙度值越小，疲勞壽命越長。②合理選擇潤滑油粘度。粘度低的油易滲入裂紋，加速裂紋擴展。粘度高的潤滑油有利于接觸應力均勻分布，提高抗疲勞磨損的能力。在潤滑油中加入極壓添加劑或固體潤滑劑，能提高接觸表面的抗疲勞性能。③合理選擇零件接觸面的硬度。以軸承鋼為例，硬度為62HRc時，抗疲勞磨損能力最高，增加或降低表面硬度，壽命都有較大的降低。

　　In order to improve the fatigue life of the surface of the parts, in addition to selecting friction materials reasonably, attention should also be paid to: ① selecting the surface roughness of the contact surface of the parts reasonably. In general, the smaller the surface roughness value, the longer the fatigue life Reasonably choose the viscosity of lubricating oil. Oil with low viscosity is prone to penetrate cracks and accelerate crack propagation. Lubricating oil with high viscosity is conducive to uniform distribution of contact stress and improves the ability to resist fatigue wear. Adding extreme pressure additives or solid lubricants to lubricating oil can improve the fatigue resistance of the contact surface Reasonably select the hardness of the contact surface of the parts. Taking bearing steel as an example, when the hardness is 62HRc, the ability to resist fatigue wear is the highest. Increasing or decreasing the surface hardness significantly reduces the service life.

　　4.腐蝕磨損

　　4. Corrosion and wear

　　中空玻璃生產線腐蝕磨損摩擦過程中，金屬與周圍介質(如空氣中的酸、潤滑油等)發生化學或電化學反應而引起的表面損傷，稱為腐蝕磨損。其中氧化磨損最為常見，這是金屬摩擦附在氧化性介質中工作時，接觸表面反復生成、磨去氧化膜的磨損現象，實際上是化學氧化和機械磨損兩種作用相繼進行的過程。氧化磨損的大小取決于氧化膜的連接強度和氧化速度。

　　The surface damage caused by chemical or electrochemical reactions between metal and surrounding media (such as acids, lubricants, etc. in the air) during the corrosion, wear, and friction process of the insulated glass production line is called corrosion wear. Among them, oxidative wear is the most common, which is a wear phenomenon in which the contact surface repeatedly generates and grinds off the oxide film when metal friction is attached to an oxidizing medium. In fact, it is a process in which chemical oxidation and mechanical wear occur successively. The magnitude of oxidative wear depends on the connection strength and oxidation rate of the oxide film.

　　除了上述4種基本中空玻璃生產線磨損類型外，還有一些磨損現象可視為是基本磨損類型的派生或復合。前者如浸蝕磨損，后者如微動磨損。

　　In addition to the four basic types of wear on insulated glass production lines mentioned above, there are also some wear phenomena that can be considered as derivatives or composites of the basic wear types. The former is like erosion wear, while the latter is like micro motion wear.

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