collision safety coefficient

简明释义

碰撞安全系数

英英释义

例句

1.A higher collision safety coefficient means that the vehicle can withstand impacts more effectively.

更高的碰撞安全系数意味着车辆能更有效地抵御冲击。

2.Engineers are constantly working to improve the collision safety coefficient of new vehicles.

工程师们不断努力提高新车型的碰撞安全系数。

3.The car's design includes a high collision safety coefficient to ensure better protection for passengers.

这款车的设计包括高碰撞安全系数，以确保乘客的更好保护。

4.Manufacturers must comply with regulations regarding the collision safety coefficient to sell vehicles in certain markets.

制造商必须遵守关于碰撞安全系数的法规，才能在某些市场销售车辆。

5.During the crash tests, the collision safety coefficient was measured to assess the vehicle's performance.

在碰撞测试中，测量了碰撞安全系数以评估车辆性能。

作文

In the modern world, safety is a paramount concern in various fields, especially in transportation and engineering. One crucial aspect of ensuring safety is the concept of the collision safety coefficient, which plays a significant role in evaluating how well structures, vehicles, and systems can withstand impacts. The collision safety coefficient is a numerical value that indicates the ability of an object to absorb energy during a collision and protect its occupants or contents from harm. This coefficient is derived from various factors, including material properties, design features, and the expected forces during an impact.Understanding the collision safety coefficient is vital for engineers and designers who work on vehicles, buildings, and other structures that require a high level of safety. For instance, in automotive design, manufacturers conduct rigorous tests to determine the collision safety coefficient of their vehicles. This involves simulating collisions under controlled conditions to analyze how different designs perform when subjected to impact forces. By improving the collision safety coefficient, manufacturers can enhance passenger safety and reduce the likelihood of injuries in accidents.Moreover, the collision safety coefficient is not only applicable to vehicles but also to infrastructure such as bridges and buildings. Engineers must consider potential collision scenarios, such as vehicle impacts or natural disasters, when designing these structures. A higher collision safety coefficient signifies that a structure can better withstand unexpected forces, thereby protecting lives and property. For example, a bridge designed with a high collision safety coefficient can endure the impact of a heavy truck without collapsing, ensuring safe passage for all users.In addition to its application in engineering and design, the collision safety coefficient has implications for regulatory standards and safety ratings. Organizations that assess vehicle safety often use this coefficient to assign ratings, helping consumers make informed decisions when purchasing cars. A vehicle with a high collision safety coefficient is likely to receive better safety ratings, providing reassurance to buyers about their choice.Furthermore, public awareness of the collision safety coefficient can drive demand for safer products. As consumers become more educated about safety features and ratings, they may prioritize vehicles and products with higher coefficients, encouraging manufacturers to invest in research and development aimed at improving safety.In conclusion, the collision safety coefficient is a critical metric in assessing the safety of vehicles, structures, and systems. Its importance spans various industries, influencing design decisions, regulatory standards, and consumer choices. By focusing on enhancing the collision safety coefficient, we can work towards a safer future, minimizing the risks associated with collisions and protecting lives. Understanding and implementing this concept is essential for engineers, manufacturers, and consumers alike, ultimately contributing to a culture of safety in our daily lives.

在现代社会，安全是各个领域的首要关注点，尤其是在交通和工程方面。确保安全的一个关键方面是“碰撞安全系数”的概念，它在评估结构、车辆和系统抵御冲击的能力方面发挥着重要作用。“碰撞安全系数”是一个数值，表示物体在碰撞过程中吸收能量并保护其乘员或内容物免受伤害的能力。该系数由多种因素得出，包括材料特性、设计特征以及在冲击过程中预期的力。理解“碰撞安全系数”对从事汽车、建筑和其他需要高安全水平的结构的工程师和设计师至关重要。例如，在汽车设计中，制造商会进行严格测试，以确定其车辆的“碰撞安全系数”。这涉及在受控条件下模拟碰撞，以分析不同设计在受到冲击力时的表现。通过提高“碰撞安全系数”，制造商可以增强乘客安全，减少事故中受伤的可能性。此外，“碰撞安全系数”不仅适用于车辆，还适用于基础设施，如桥梁和建筑。工程师在设计这些结构时必须考虑潜在的碰撞场景，例如车辆撞击或自然灾害。更高的“碰撞安全系数”意味着结构能够更好地承受意外的力量，从而保护生命和财产。例如，设计具有高“碰撞安全系数”的桥梁可以承受重型卡车的撞击而不坍塌，确保所有用户的安全通行。除了在工程和设计中的应用外，“碰撞安全系数”对监管标准和安全评级也有影响。评估车辆安全的组织通常使用该系数来分配评级，帮助消费者在购买汽车时做出明智的决定。具有高“碰撞安全系数”的车辆可能会获得更好的安全评级，为买家提供有关其选择的保证。此外，公众对“碰撞安全系数”的认识可以推动对更安全产品的需求。随着消费者对安全特性和评级的了解加深，他们可能会优先考虑具有更高系数的车辆和产品，从而鼓励制造商投资于旨在提高安全性的研发。总之，“碰撞安全系数”是评估车辆、结构和系统安全性的关键指标。它的重要性跨越多个行业，影响设计决策、监管标准和消费者选择。通过专注于提高“碰撞安全系数”，我们可以朝着更安全的未来努力，最小化与碰撞相关的风险，保护生命。理解和实施这一概念对工程师、制造商和消费者而言都至关重要，最终有助于在我们的日常生活中建立安全文化。