uncracked

简明释义

英[ʌnˈkrækt]美[ʌnˈkrækt]

adj. 未裂开的；无裂缝的

英英释义

单词用法

同义词

反义词

例句

1.The results show that the weaken of crack directors has a little influence on stress release and little influence on stress distribution when the crack directors is uncracked.

实例计算结果表明：在诱导缝未开裂时，其削弱程度对坝体应力的释放程度有很小的差别，而对坝体应力分布规律几乎没有影响；

2.Bacteria can be inside an uncracked, whole egg.

细菌也存在于无缝完整的鸡蛋内部。

3.Lingzhi Spores Powde include cracked and uncracked.

灵芝孢子有破壁和不破壁的两种。

4.The results show that the weaken of crack directors has a little influence on stress release and little influence on stress distribution when the crack directors is uncracked.

实例计算结果表明：在诱导缝未开裂时，其削弱程度对坝体应力的释放程度有很小的差别，而对坝体应力分布规律几乎没有影响；

5.The former is collocated exclusively on the uncracked boundary, and the latter on one side of the crack surface.

位移边界积分方程的源点配置在非裂纹边界上，面力边界积分方程的源点配置在裂纹面上。

6.Still uncracked are the 97 characters of the fourth part (known as K4 in Kryptos-speak).

仍然未解的还有第四部分（就是通常所说的克里普托斯的暗语中的K4）的97个字符 。

7.The antique vase was uncracked, making it highly valuable to collectors.

这个古董花瓶是完好无损的，使其对收藏家来说非常有价值。

8.The safe was still uncracked, holding all its valuable contents.

这个保险箱仍然是未被破解的，里面存放着所有有价值的物品。

9.Despite many attempts, the code remained uncracked by the hackers.

尽管尝试了很多次，这个密码仍然对黑客来说是未被破解的。

10.He was proud of his uncracked record in the game.

他为自己在比赛中保持的未被打破的记录感到自豪。

11.She found an uncracked egg in the nest, perfect for hatching.

她在巢里发现了一个未破损的蛋，非常适合孵化。

作文

In the world of science and technology, materials play a crucial role in determining the success of various applications. One such material that has gained attention in recent years is glass. Glass is often praised for its aesthetic qualities and transparency; however, it also has its limitations. One of the most significant challenges faced by engineers and designers is to create glass that remains uncracked (未破裂的) under stress. This essay will explore the importance of uncracked (未破裂的) glass in modern technology and how advancements in material science are addressing this issue.The demand for uncracked (未破裂的) glass is particularly high in industries such as architecture and automotive manufacturing. In architecture, large glass panels are often used in skyscrapers and modern buildings to create stunning visual effects. However, these panels must be able to withstand environmental stresses such as wind pressure, temperature fluctuations, and seismic activity. If the glass is not uncracked (未破裂的), it can lead to catastrophic failures, resulting in injuries and significant financial losses.Similarly, in the automotive industry, the windshield is a critical component that must remain uncracked (未破裂的) during accidents to protect passengers. Engineers are constantly working on developing new types of glass that can absorb impact without shattering. Innovations such as laminated glass, which consists of multiple layers, have shown promise in improving the durability of windshields. This type of glass not only helps keep the glass uncracked (未破裂的) but also reduces the risk of injury from shattered glass shards.Moreover, the use of uncracked (未破裂的) glass extends beyond just safety; it also contributes to energy efficiency. Buildings with uncracked (未破裂的) glass can better regulate indoor temperatures, reducing the need for heating and cooling. This not only lowers energy costs but also minimizes the environmental impact of excessive energy consumption. As a result, architects and builders are increasingly incorporating uncracked (未破裂的) glass into their designs to meet sustainability goals.Advancements in technology are also playing a pivotal role in the production of uncracked (未破裂的) glass. Researchers are exploring new manufacturing techniques that involve the use of nanotechnology to enhance the strength and resilience of glass. For example, the introduction of nanoparticles into the glass matrix can significantly improve its mechanical properties, making it more resistant to cracking. These innovations hold great potential for the future, as they could lead to the widespread availability of uncracked (未破裂的) glass products across various sectors.In conclusion, the quest for uncracked (未破裂的) glass is essential for ensuring safety, enhancing energy efficiency, and pushing the boundaries of architectural design. With ongoing research and technological advancements, we can expect to see more durable and reliable glass products in the market. The ability to produce glass that remains uncracked (未破裂的) under pressure will not only benefit industries but also improve the quality of life for individuals who rely on these materials every day. As we move forward, the importance of uncracked (未破裂的) glass will only continue to grow, shaping the future of construction, transportation, and beyond.

在科学和技术的世界中，材料在决定各种应用的成功方面发挥着至关重要的作用。近年来，一种引起关注的材料是玻璃。玻璃常因其美学特性和透明度而受到赞扬；然而，它也有其局限性。工程师和设计师面临的一个重大挑战是创造在压力下保持未破裂的（uncracked）的玻璃。本文将探讨未破裂的（uncracked）玻璃在现代技术中的重要性，以及材料科学的进步如何解决这一问题。对未破裂的（uncracked）玻璃的需求在建筑和汽车制造等行业特别高。在建筑领域，大型玻璃面板常用于摩天大楼和现代建筑中，以创造惊人的视觉效果。然而，这些面板必须能够承受风压、温度波动和地震活动等环境压力。如果玻璃没有保持未破裂的（uncracked），可能会导致灾难性的故障，造成伤害和巨大的经济损失。同样，在汽车行业，挡风玻璃是一个关键组件，必须在事故中保持未破裂的（uncracked）以保护乘客。工程师们不断努力开发新型玻璃，以便在冲击下吸收能量而不破裂。层压玻璃等创新技术，由多层组成，已显示出改善挡风玻璃耐用性的潜力。这种类型的玻璃不仅有助于保持玻璃未破裂的（uncracked），还减少了因破碎玻璃碎片造成的伤害风险。此外，使用未破裂的（uncracked）玻璃不仅关系到安全，还与能源效率有关。使用未破裂的（uncracked）玻璃的建筑可以更好地调节室内温度，从而减少供暖和制冷的需求。这不仅降低了能源成本，还最小化了过度能源消耗对环境的影响。因此，建筑师和施工人员越来越多地在设计中融入未破裂的（uncracked）玻璃，以实现可持续发展目标。技术的进步在未破裂的（uncracked）玻璃生产中也发挥着关键作用。研究人员正在探索使用纳米技术的新制造技术，以增强玻璃的强度和韧性。例如，将纳米颗粒引入玻璃基体可以显著改善其机械性能，使其更能抵抗开裂。这些创新在未来具有巨大潜力，因为它们可能导致各种行业广泛提供未破裂的（uncracked）玻璃产品。总之，追求未破裂的（uncracked）玻璃对于确保安全、提高能源效率以及推动建筑设计的边界至关重要。随着持续的研究和技术进步，我们可以期待市场上出现更多耐用可靠的玻璃产品。生产在压力下保持未破裂的（uncracked）的玻璃的能力不仅将使行业受益，还将改善依赖这些材料的个人的生活质量。随着我们前进，未破裂的（uncracked）玻璃的重要性只会继续增长，塑造建筑、交通等领域的未来。