for camber

简明释义

梁拱修正

英英释义

例句

1.When aligning the wheels, it's crucial to set the angles for camber to ensure even tire wear.

在对齐车轮时，设置角度以获得倾斜角是确保轮胎均匀磨损的关键。

2.Proper alignment for camber is essential for maximizing fuel efficiency.

正确的对齐以获得倾斜角对于最大化燃油效率至关重要。

3.Racers often modify their cars for camber to enhance cornering performance.

赛车手通常会修改他们的汽车以获得倾斜角，以增强过弯性能。

4.The mechanic explained that the adjustment for camber can affect the vehicle's handling characteristics.

机械师解释说，调整以获得倾斜角会影响车辆的操控特性。

5.The engineer adjusted the suspension settings for camber to improve tire grip on the track.

工程师调整了悬挂设置以获得倾斜角，以提高轮胎在赛道上的抓地力。

作文

In the world of engineering and design, understanding specific terms and their applications is crucial for success. One such term that often surfaces in discussions about structural integrity and performance is for camber. The concept of camber refers to the slight upward curve or arch in a beam or structural element, which is intentionally designed to counteract deflection under load. This practice is particularly important in various fields, including civil engineering, automotive design, and architecture.When engineers design bridges or buildings, they must consider how materials will behave under different loads. The application of for camber allows them to create structures that not only support weight but also maintain aesthetic appeal. For instance, when a bridge is constructed with a camber, it can help distribute the weight of vehicles more evenly across its span. This reduces stress on the materials and prolongs the lifespan of the structure.In automotive design, for camber plays a vital role in vehicle handling and performance. The camber angle of a wheel affects how the tire contacts the road. A positive camber means the top of the tire is tilted outward, while a negative camber tilts it inward. Designers adjust the camber settings for camber to improve traction during cornering or to enhance stability at high speeds. This fine-tuning can significantly influence how a car performs, making it essential for manufacturers to understand the implications of camber adjustments.Moreover, the use of for camber extends beyond practical applications; it also influences aesthetic choices in architecture. Architects may design roofs with a camber to create visually striking profiles while ensuring that rainwater drains effectively. The deliberate curvature helps prevent water pooling, which can lead to structural damage over time. Thus, the concept of camber not only serves functional purposes but also enhances the overall visual appeal of a building.While the technical aspects of for camber are critical, it is equally important for professionals in these fields to communicate effectively about their designs. Misunderstandings or miscalculations regarding camber can lead to significant issues, including structural failures or compromised vehicle safety. Therefore, engineers and designers must ensure that they convey their intentions clearly and accurately when discussing camber-related specifications.In conclusion, the phrase for camber encapsulates a fundamental principle in engineering and design that addresses both functionality and aesthetics. Whether in the context of constructing durable bridges, designing high-performance vehicles, or creating visually appealing architecture, camber plays an integral role. Understanding and applying this concept correctly is essential for professionals aiming to achieve excellence in their respective fields. As technology continues to evolve, the importance of precise engineering practices like camber will undoubtedly remain a cornerstone of effective design and construction.

在工程和设计的世界中，理解特定术语及其应用对于成功至关重要。其中一个经常出现在关于结构完整性和性能讨论中的术语是for camber。弯曲的概念是指梁或结构元素中的轻微向上弯曲或拱形，这种设计是为了抵消负载下的挠度。这一做法在多个领域中尤为重要，包括土木工程、汽车设计和建筑。当工程师设计桥梁或建筑时，他们必须考虑材料在不同负载下的表现。应用for camber使他们能够创建不仅支持重量而且保持美学吸引力的结构。例如，当桥梁采用弯曲设计时，可以帮助将车辆的重量更均匀地分布在跨越的跨度上。这减少了材料上的压力，并延长了结构的使用寿命。在汽车设计中，for camber在车辆操控和性能中起着至关重要的作用。车轮的弯曲角度影响轮胎与路面的接触。正弯曲意味着轮胎的顶部向外倾斜，而负弯曲则向内倾斜。设计师调整弯曲设置for camber以改善转弯时的牵引力或提高高速时的稳定性。这种微调可以显著影响汽车的性能，因此制造商必须理解弯曲调整的含义。此外，for camber的使用不仅限于实用应用；它还影响建筑中的美学选择。建筑师可能会设计带有弯曲的屋顶，以创造视觉上引人注目的轮廓，同时确保雨水有效排水。故意的曲率有助于防止水积聚，这可能导致随着时间的推移而造成结构损坏。因此，弯曲的概念不仅服务于功能目的，还增强了建筑的整体视觉吸引力。虽然for camber的技术方面至关重要，但这些领域的专业人士在讨论设计时有效沟通同样重要。关于弯曲的误解或误算可能导致重大问题，包括结构失败或车辆安全受损。因此，工程师和设计师必须确保在讨论与弯曲相关的规格时清晰准确地传达他们的意图。总之，短语for camber概括了工程和设计中的一个基本原则，该原则涉及功能性和美学。无论是在建造耐用桥梁、设计高性能车辆还是创造视觉上吸引人的建筑的背景下，弯曲在其中都扮演着不可或缺的角色。正确理解和应用这一概念对于追求卓越的专业人士至关重要。随着技术的不断发展，像弯曲这样的精确工程实践的重要性无疑将继续成为有效设计和施工的基石。