crash stop test

简明释义

应急全速停车试验

英英释义

例句

1.The team prepared for the crash stop test by ensuring all safety protocols were in place.

团队为碰撞停止测试做准备，确保所有安全协议都已到位。

2.During the crash stop test, the car was required to come to a complete stop from high speed in a short distance.

在碰撞停止测试中，汽车需要在短距离内从高速完全停车。

3.A successful crash stop test is crucial for obtaining certification for commercial vehicles.

成功的碰撞停止测试对获得商用车辆认证至关重要。

4.The results of the crash stop test showed that the new brake system significantly improved safety.

该碰撞停止测试的结果显示，新刹车系统显著提高了安全性。

5.The engineers conducted a crash stop test to evaluate the vehicle's braking performance under extreme conditions.

工程师进行了一个碰撞停止测试，以评估车辆在极端条件下的制动性能。

作文

The concept of a crash stop test is essential in various fields, particularly in automotive safety and engineering. This test is designed to evaluate the stopping capabilities of a vehicle under extreme conditions. By simulating a sudden stop from high speeds, engineers can assess how well a car can come to a halt without losing control or causing harm to its occupants. The crash stop test involves several key parameters, including the vehicle's speed, the condition of the brakes, and the surface on which the test is conducted. In recent years, the importance of the crash stop test has grown significantly due to increasing concerns over road safety. As more vehicles are manufactured with advanced technology, it is crucial to ensure that these innovations do not compromise safety. For instance, automatic braking systems and anti-lock braking systems (ABS) must be rigorously tested to confirm their effectiveness during emergency situations. A successful crash stop test can provide vital data that informs manufacturers about potential improvements or necessary adjustments to their braking systems.Furthermore, the crash stop test is not limited to passenger vehicles. It is also applicable to commercial trucks, buses, and even motorcycles. Each type of vehicle presents unique challenges and requires tailored testing protocols. For example, a heavy truck may need a longer distance to stop compared to a compact car, which means that the crash stop test must account for these differences to ensure accurate results. The methodology behind the crash stop test typically involves the use of specialized equipment such as speed sensors, accelerometers, and high-speed cameras. These tools help engineers gather precise data regarding the vehicle's performance during the test. The information collected can then be analyzed to determine factors such as stopping distance, deceleration rates, and the overall effectiveness of the braking system. In addition to technical aspects, the crash stop test also has implications for regulatory compliance. Many countries have established safety standards that vehicles must meet before they can be sold to consumers. By conducting thorough crash stop tests, manufacturers can ensure that their vehicles adhere to these regulations, thereby reducing the risk of accidents and enhancing public safety. Moreover, the results of the crash stop test can influence consumer choices. In an era where safety ratings are prominently displayed in advertisements and online reviews, a vehicle that performs well in these tests can gain a competitive edge in the market. Consumers are increasingly aware of the importance of safety features, and positive outcomes from crash stop tests can reassure buyers that they are making a wise investment. In conclusion, the crash stop test plays a critical role in the automotive industry, serving as a benchmark for safety and performance. As technology continues to evolve, so too will the methods used to conduct these tests. Ultimately, the goal remains the same: to protect lives by ensuring that vehicles can stop effectively in emergencies. The ongoing development and refinement of the crash stop test will undoubtedly contribute to safer roads and a more secure driving experience for everyone.

“碰撞制动测试”的概念在各个领域中都至关重要，尤其是在汽车安全和工程方面。这个测试旨在评估车辆在极端条件下的制动能力。通过模拟高速度下的突然停车，工程师可以评估一辆车在不失去控制或对乘员造成伤害的情况下能多快停下来。“碰撞制动测试”涉及几个关键参数，包括车辆的速度、刹车的状态以及测试进行的表面。近年来，由于人们对道路安全的关注不断增加，“碰撞制动测试”的重要性显著提升。随着越来越多的车辆采用先进技术，确保这些创新不会妨碍安全变得至关重要。例如，自动刹车系统和防抱死刹车系统（ABS）必须经过严格测试，以确认它们在紧急情况下的有效性。成功的“碰撞制动测试”可以提供重要的数据，帮助制造商了解潜在的改进或必要的调整。此外，“碰撞制动测试”并不限于乘用车。它同样适用于商用卡车、公交车甚至摩托车。每种类型的车辆都呈现出独特的挑战，需要量身定制的测试协议。例如，重型卡车可能需要比紧凑型轿车更长的停车距离，这意味着“碰撞制动测试”必须考虑这些差异，以确保结果的准确性。“碰撞制动测试”的方法通常涉及使用专门的设备，如速度传感器、加速度计和高速摄像机。这些工具帮助工程师收集关于车辆在测试期间表现的精确数据。收集到的信息可以被分析，以确定制动距离、减速率以及制动系统的整体有效性。除了技术方面，“碰撞制动测试”还与合规性有关。许多国家已建立了安全标准，车辆必须满足这些标准才能销售给消费者。通过进行彻底的“碰撞制动测试”，制造商可以确保其车辆符合这些法规，从而降低事故风险，增强公共安全。此外，“碰撞制动测试”的结果可以影响消费者的选择。在一个安全评级在广告和在线评论中显著展示的时代，在这些测试中表现良好的车辆可以在市场上获得竞争优势。消费者越来越意识到安全功能的重要性，来自“碰撞制动测试”的积极结果可以使买家放心，他们正在做出明智的投资。总之，“碰撞制动测试”在汽车行业中发挥着关键作用，作为安全和性能的基准。随着技术的不断发展，进行这些测试的方法也将不断演变。最终，目标始终是相同的：通过确保车辆能够在紧急情况下有效停车来保护生命。“碰撞制动测试”的持续发展和完善无疑将有助于更安全的道路和更安全的驾驶体验。