crossply tires
斜交轮胎
crossply construction
斜交结构
crossply technology
斜交技术
crossplying process
编织过程
crossply design
斜交设计
crossply layer
斜交层
crossply pattern
斜交图案
crossply cord
斜交帘线
crossply reinforcement
斜交增强
modern tires use steel crossplies for enhanced durability and strength on the road.
现代轮胎使用钢丝交叉层来提高道路上的耐久性和强度。
the crossplies in this tire are arranged at a precise 45-degree angle for optimal performance.
这款轮胎中的交叉层以精确的45度角排列,以实现最佳性能。
improper crossplies alignment can cause uneven tire wear and potential safety hazards.
不正确的交叉层排列会导致轮胎磨损不均和潜在的安全隐患。
crossplies provide critical reinforcement to the tire structure, improving overall stability.
交叉层为轮胎结构提供关键的加固,提高整体稳定性。
multiple crossplies increase the tire's load-bearing capacity for heavy-duty applications.
多层交叉层提高了轮胎的承载能力,适用于重型应用。
the manufacturing process ensures precise crossplies placement throughout the tire.
制造工艺确保轮胎各部位的交叉层放置精确。
crossplies orientation directly affects the tire's handling characteristics and response.
交叉层的方向直接影响轮胎的操控特性和响应。
some tires combine radial plies with crossplies to achieve balanced performance.
一些轮胎结合辐射层和交叉层以实现平衡的性能。
the number of crossplies determines the tire's stiffness and ride comfort.
交叉层的数量决定了轮胎的刚性和行驶舒适性。
crossplies help distribute stress evenly across the tire surface during operation.
交叉层有助于在运行过程中将应力均匀分布在轮胎表面。
damaged crossplies can lead to tire failure, especially at high speeds on highways.
损坏的交叉层可能导致轮胎故障,尤其是在高速公路高速行驶时。
engineers optimize crossplies design for specific driving conditions and vehicle types.
工程师针对特定的驾驶条件和车辆类型优化交叉层设计。
the angle of crossplies influences the tire's resistance to deformation under cornering forces.
交叉层的角度影响轮胎在转弯力作用下的抗变形能力。
crossply tires
斜交轮胎
crossply construction
斜交结构
crossply technology
斜交技术
crossplying process
编织过程
crossply design
斜交设计
crossply layer
斜交层
crossply pattern
斜交图案
crossply cord
斜交帘线
crossply reinforcement
斜交增强
modern tires use steel crossplies for enhanced durability and strength on the road.
现代轮胎使用钢丝交叉层来提高道路上的耐久性和强度。
the crossplies in this tire are arranged at a precise 45-degree angle for optimal performance.
这款轮胎中的交叉层以精确的45度角排列,以实现最佳性能。
improper crossplies alignment can cause uneven tire wear and potential safety hazards.
不正确的交叉层排列会导致轮胎磨损不均和潜在的安全隐患。
crossplies provide critical reinforcement to the tire structure, improving overall stability.
交叉层为轮胎结构提供关键的加固,提高整体稳定性。
multiple crossplies increase the tire's load-bearing capacity for heavy-duty applications.
多层交叉层提高了轮胎的承载能力,适用于重型应用。
the manufacturing process ensures precise crossplies placement throughout the tire.
制造工艺确保轮胎各部位的交叉层放置精确。
crossplies orientation directly affects the tire's handling characteristics and response.
交叉层的方向直接影响轮胎的操控特性和响应。
some tires combine radial plies with crossplies to achieve balanced performance.
一些轮胎结合辐射层和交叉层以实现平衡的性能。
the number of crossplies determines the tire's stiffness and ride comfort.
交叉层的数量决定了轮胎的刚性和行驶舒适性。
crossplies help distribute stress evenly across the tire surface during operation.
交叉层有助于在运行过程中将应力均匀分布在轮胎表面。
damaged crossplies can lead to tire failure, especially at high speeds on highways.
损坏的交叉层可能导致轮胎故障,尤其是在高速公路高速行驶时。
engineers optimize crossplies design for specific driving conditions and vehicle types.
工程师针对特定的驾驶条件和车辆类型优化交叉层设计。
the angle of crossplies influences the tire's resistance to deformation under cornering forces.
交叉层的角度影响轮胎在转弯力作用下的抗变形能力。
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