additive proccess

简明释义

追加过程

英英释义

例句

1.The additive process 增材工艺 is commonly used in 3D printing to build objects layer by layer.

在3D打印中，增材工艺 additive process 通常用于逐层构建物体。

2.By using an additive process 增材工艺, engineers can reduce waste material significantly.

通过使用增材工艺 additive process，工程师可以显著减少废料。

3.In the manufacturing industry, the additive process 增材工艺 allows for the creation of complex geometries that traditional methods cannot achieve.

在制造行业中，增材工艺 additive process 允许创造传统方法无法实现的复杂几何形状。

4.In food production, the additive process 增材工艺 can enhance flavors and textures without altering the original ingredients.

在食品生产中，增材工艺 additive process 可以增强风味和质感，而不改变原材料。

5.The aerospace sector has embraced the additive process 增材工艺 for producing lightweight components.

航空航天行业已经采用增材工艺 additive process来生产轻量化组件。

作文

In recent years, the term additive process has gained significant attention in various fields, including manufacturing, art, and even cooking. An additive process refers to a method where materials are added together to create a final product, rather than removing material, which is known as a subtractive process. This concept is particularly prominent in the world of 3D printing, where layers of material are added one on top of another until the desired shape is achieved.The beauty of the additive process lies in its ability to create complex geometries that would be nearly impossible to achieve with traditional manufacturing techniques. For instance, in aerospace engineering, components that are both lightweight and strong can be designed using this method, leading to increased fuel efficiency and performance of aircraft. By utilizing an additive process, engineers can optimize the design of parts, reducing waste and improving overall sustainability.Moreover, the additive process has transformed the way artists approach their work. Artists can use 3D printing to create intricate sculptures that push the boundaries of creativity. The ability to experiment with different materials and forms allows for a new wave of artistic expression. In this context, the additive process not only serves as a production technique but also as a medium for innovation and exploration.In the culinary world, chefs have begun to adopt the additive process in the form of molecular gastronomy. This approach involves combining ingredients in novel ways to create unique textures and flavors. For example, using techniques like spherification, chefs can create edible spheres that burst with flavor when bitten into. This innovative use of the additive process challenges traditional notions of cooking and presents a new frontier for gastronomic creativity.Despite its many advantages, the additive process is not without challenges. One significant drawback is the time it takes to produce items using this method, especially when compared to traditional mass production techniques. Additionally, the cost of materials and equipment can be prohibitive for smaller businesses or individual artists. However, as technology continues to advance, it is likely that these barriers will diminish, making the additive process more accessible to a wider audience.In conclusion, the additive process represents a paradigm shift in how we create and innovate across various disciplines. Its applications range from engineering to art, and even to the culinary world, demonstrating its versatility and potential. As we continue to explore the possibilities of this method, it is essential to embrace the challenges it presents while recognizing the groundbreaking opportunities it offers. The future of the additive process is bright, and it will undoubtedly play a crucial role in shaping the next generation of products, artworks, and culinary experiences.

近年来，短语加法过程在制造、艺术甚至烹饪等多个领域引起了广泛关注。加法过程是指将材料逐步添加到一起以创造最终产品的方法，而不是去除材料，这种方法称为减法过程。这个概念在3D打印的世界中尤为突出，材料层层叠加，直到实现所需的形状。加法过程的美在于它能够创造出复杂的几何形状，而这些形状通过传统制造技术几乎是不可能实现的。例如，在航空航天工程中，利用这种方法可以设计出既轻便又坚固的部件，从而提高飞机的燃油效率和性能。通过利用加法过程，工程师可以优化零件的设计，减少浪费，提高整体可持续性。此外，加法过程还改变了艺术家创作作品的方式。艺术家们可以使用3D打印技术创造出复杂的雕塑，突破创意的界限。实验不同的材料和形式的能力为艺术表达带来了新的浪潮。在这种背景下，加法过程不仅作为一种生产技术，还成为创新和探索的媒介。在烹饪领域，厨师们开始采用加法过程，以分子美食学的形式出现。这种方法涉及以新颖的方式结合食材，以创造独特的质地和风味。例如，使用球形化技术，厨师们可以制作出咬一口就会爆汁的可食用球体。这种创新的加法过程挑战了传统的烹饪观念，为美食创作开辟了新的前沿。尽管有许多优点，加法过程也并非没有挑战。其中一个显著缺点是，与传统的大规模生产技术相比，使用这种方法生产物品所需的时间较长。此外，材料和设备的成本对小型企业或个人艺术家来说可能是一个负担。然而，随着技术的不断进步，这些障碍很可能会减少，使得加法过程对更广泛的受众更加可及。总之，加法过程代表了一种关于我们如何在各个学科中创造和创新的范式转变。它的应用范围从工程到艺术，甚至到烹饪世界，展示了其多样性和潜力。随着我们继续探索这种方法的可能性，拥抱它所带来的挑战，同时认识到它提供的突破性机会至关重要。加法过程的未来是光明的，它无疑将在塑造下一代产品、艺术作品和美食体验方面发挥关键作用。