steam hammer

简明释义

汽锤

英英释义

例句

1.He was amazed by how a steam hammer could shape steel with such force.

他对蒸汽锤能够以如此大的力量塑造钢材感到惊讶。

2.The old steam hammer in the workshop is still operational after all these years.

车间里的旧蒸汽锤在经历这么多年后仍然可以正常工作。

3.The factory uses a steam hammer to forge heavy metal parts.

工厂使用蒸汽锤来锻造重型金属部件。

4.Safety measures are crucial when operating a steam hammer.

在操作蒸汽锤时，安全措施至关重要。

5.In the 19th century, the invention of the steam hammer revolutionized metalworking.

在19世纪，蒸汽锤的发明彻底改变了金属加工。

作文

The invention of the steam hammer marked a significant turning point in the industrial revolution. Before its advent, the processes of forging and shaping metals were labor-intensive and time-consuming. Blacksmiths relied on manual hammers or simple mechanical devices that lacked the power and efficiency required for large-scale production. The steam hammer changed all that by harnessing the power of steam to drive a heavy hammer down onto the metal, allowing for rapid and precise shaping of materials. This innovation not only increased productivity but also improved the quality of the products being manufactured.The first practical steam hammer was developed in the early 19th century by engineer James Nasmyth. His design utilized a piston driven by steam pressure to lift a hammer to a certain height before releasing it, creating a powerful impact on the workpiece below. This mechanism allowed for much greater force to be applied compared to traditional methods. As a result, industries such as shipbuilding, railways, and construction saw a dramatic increase in the speed at which they could operate.One of the most notable applications of the steam hammer was in the manufacturing of large iron and steel components. For example, the construction of bridges and locomotives required massive steel beams that needed to be shaped with precision. The steam hammer made it possible to create these components more efficiently than ever before. This not only facilitated the growth of these industries but also contributed to the overall expansion of infrastructure during the industrial age.Moreover, the introduction of the steam hammer had a profound impact on the workforce. While it increased productivity, it also meant that fewer skilled workers were needed for manual labor. This shift led to changes in labor dynamics, as some workers found themselves displaced by machines. However, it also created new opportunities in engineering and machine operation, as industries required individuals who could maintain and operate these powerful machines.In conclusion, the steam hammer was more than just a tool; it was a catalyst for change in the industrial landscape. Its ability to apply immense force with precision revolutionized various manufacturing processes, paving the way for modern engineering practices. As we reflect on the impact of the steam hammer, it is clear that this invention played a crucial role in shaping the world we live in today, highlighting the importance of innovation in driving progress and efficiency in industry.

“蒸汽锤”的发明标志着工业革命的一个重要转折点。在它出现之前，锻造和塑形金属的过程非常耗费人力和时间。铁匠依靠手动锤或简单的机械装置，缺乏大规模生产所需的力量和效率。“蒸汽锤”改变了这一切，通过利用蒸汽的力量将重锤降落到金属上，从而实现快速而精确的材料成型。这一创新不仅提高了生产力，还改善了制造产品的质量。第一个实用的“蒸汽锤”是在19世纪初由工程师詹姆斯·纳斯密斯（James Nasmyth）开发的。他的设计利用蒸汽压力驱动活塞，抬起锤子到一定高度后释放，产生对下方工件的强大冲击。这种机制使得施加的力量远远超过传统方法。因此，造船、铁路和建筑等行业的运作速度显著提高。“蒸汽锤”最显著的应用之一是在大型铁和钢部件的制造中。例如，桥梁和机车的建造需要大量需要精确塑形的钢梁。“蒸汽锤”使得这些部件的创建比以往任何时候都更加高效。这不仅促进了这些行业的发展，还推动了工业时代基础设施的总体扩张。此外，“蒸汽锤”的引入对劳动力产生了深远的影响。虽然它提高了生产率，但也意味着对手工劳动的熟练工人的需求减少。这种变化导致了劳动动态的变化，因为一些工人发现自己被机器取代。然而，它也在工程和机械操作方面创造了新的机会，因为各行各业需要能够维护和操作这些强大机器的人。总之，“蒸汽锤”不仅仅是一种工具；它是工业领域变革的催化剂。它以精确的方式施加巨大力量，彻底革新了各种制造过程，为现代工程实践铺平了道路。当我们反思“蒸汽锤”的影响时，很明显，这一发明在塑造我们今天所生活的世界中发挥了至关重要的作用，突显了创新在推动工业进步和效率中的重要性。