additively

简明释义

英[əˈdɪtɪvli]美[əˈdɪtɪvli]

附加地

英英释义

单词用法

同义词

反义词

例句

1.T he output unit of the network additively combines the weighted activations of the units in L4 to determine the final network output of the board position currently investigated.

网络的输出单元在第四层添加了加权的激活值来决定整个网络对当下位置的判断输出。

2.Lower dose of cigarette smoke solution and chrysotile in combination could enhance cell proliferation synergistically, but higher doses could only do additively.

当二者联合作用时，低剂量的烟溶液与温石棉可协同增加细胞的增殖，而较高剂量的烟溶液与温石棉则只表现为相加作用。

3.T he output unit of the network additively combines the weighted activations of the units in L4 to determine the final network output of the board position currently investigated.

网络的输出单元在第四层添加了加权的激活值来决定整个网络对当下位置的判断输出。

4.Call of Flame Core talent, primarily used for the LvB bonus. Stacks additively with Concussion (1 + 0.05 + 0.06 for a total of 11%).

核心天赋基本上是用来给熔炎爆加成的。与震荡叠加(1 + 0.05 + 0.06总共额外加11%)。

5.Each of these bonuses appears to stack additively, but separately from the tactical damage bonus.

这些加成的每一个好像都具有叠加性，但是也有个别的法术伤害加成。

6.The colors in this painting blend additively to create a vibrant effect.

这幅画中的颜色以加法的方式融合，形成了生动的效果。

7.The sound waves interact additively to enhance the overall audio experience.

声波以加法的方式相互作用，以增强整体音频体验。

8.The ingredients in this recipe should be combined additively for the best flavor.

这个食谱中的成分应该以加法的方式结合，以获得最佳风味。

9.In digital graphics, colors are often represented additively using RGB values.

在数字图形中，颜色通常使用RGB值以加法的方式表示。

10.When you mix light sources, they combine additively, resulting in brighter colors.

当你混合光源时，它们以加法的方式结合，产生更亮的颜色。

作文

In today's world, the concept of innovation is often discussed in various contexts, particularly in technology and science. One area where innovation plays a crucial role is in the development of materials. Scientists and engineers are constantly seeking new ways to improve the properties of materials for various applications. One interesting approach that has gained traction in recent years is the idea of creating materials that can be modified additively (即通过添加的方式) to enhance their performance. This process involves layering different materials or components to achieve desired characteristics, rather than relying on traditional methods of manufacturing that often involve subtractive processes.The advantages of additive (添加的) manufacturing are numerous. For instance, it allows for greater design flexibility and can lead to more efficient use of resources. By building objects layer by layer, manufacturers can create complex geometries that would be impossible to achieve with conventional techniques. This not only reduces waste but also opens up new possibilities for product design. Furthermore, the additive (添加的) approach can significantly shorten production times, making it possible to bring new products to market faster than ever before.One of the most prominent examples of additive (添加的) manufacturing is 3D printing. This technology has revolutionized the way we think about production and prototyping. With 3D printing, designers can create intricate models and prototypes quickly and efficiently. The ability to modify designs additively (即通过添加的方式) means that changes can be made easily without the need for costly retooling or adjustments to production lines. This is particularly beneficial in industries such as aerospace and automotive, where precision and customization are critical.Moreover, the potential for additive (添加的) manufacturing extends beyond just prototyping. It is increasingly being used for final production parts, especially in sectors where lightweight and high-strength materials are essential. For example, in the aerospace industry, components made using additive (添加的) techniques can be both lighter and stronger than those produced through traditional methods. This not only improves fuel efficiency but also enhances overall performance.However, the transition to additive (添加的) manufacturing is not without its challenges. There are still questions regarding the scalability of these processes and how they can be integrated into existing manufacturing systems. Additionally, there are concerns about the quality and consistency of additive (添加的) products, which must meet strict regulatory standards in many industries.Despite these challenges, the future of additive (添加的) manufacturing looks promising. As technology continues to advance, we are likely to see even more innovative applications emerge. Researchers are exploring new materials that can be used in additive (添加的) processes, including metals, ceramics, and even biological materials. This opens up exciting possibilities for fields such as medicine, where additive (添加的) techniques could be used to create custom implants or prosthetics tailored to individual patients.In conclusion, the concept of modifying materials additively (即通过添加的方式) represents a significant shift in how we approach manufacturing and design. By embracing this innovative approach, we can unlock new potentials and create products that are not only more efficient but also more sustainable. As we continue to explore the capabilities of additive (添加的) manufacturing, it is clear that this technology will play a pivotal role in shaping the future of various industries.

在当今世界，创新的概念常常在不同的背景下讨论，特别是在技术和科学领域。创新在材料开发中扮演着至关重要的角色。科学家和工程师们不断寻求新的方法来改善材料的特性，以便于各种应用。近年来，逐渐受到关注的一种有趣的方法是创造可以通过additively（即通过添加的方式）修改的材料，以增强其性能。这个过程涉及分层不同的材料或组件，以实现所需的特性，而不是依赖于传统的制造方法，这些方法通常涉及减法工艺。additive（添加的）制造的优势是显而易见的。例如，它允许更大的设计灵活性，并可能导致资源使用的更高效率。通过逐层构建物体，制造商可以创建复杂的几何形状，这些形状通过传统技术是不可能实现的。这不仅减少了浪费，还开辟了产品设计的新可能性。此外，additive（添加的）方法可以显著缩短生产时间，使得将新产品更快地推向市场成为可能。additive（添加的）制造最突出的例子之一是3D打印。这项技术彻底改变了我们对生产和原型制作的思考。借助3D打印，设计师可以快速高效地创建复杂的模型和原型。能够通过additively（即通过添加的方式）修改设计意味着可以轻松进行更改，而无需进行昂贵的重新工具或调整生产线。这在航空航天和汽车等行业尤为有利，因为这些行业对精度和定制化要求极高。此外，additive（添加的）制造的潜力不仅限于原型制作。它越来越多地被用于最终生产零件，特别是在轻量化和高强度材料至关重要的领域。例如，在航空航天工业中，使用additive（添加的）技术制造的组件可以比传统方法生产的组件更加轻便且更坚固。这不仅提高了燃油效率，还提升了整体性能。然而，过渡到additive（添加的）制造并非没有挑战。关于这些过程的可扩展性以及如何将其整合到现有制造系统中的问题仍然存在。此外，对于additive（添加的）产品的质量和一致性也存在担忧，许多行业必须满足严格的监管标准。尽管面临这些挑战，additive（添加的）制造的未来看起来很有希望。随着技术的不断进步，我们可能会看到更多创新应用的出现。研究人员正在探索可以在additive（添加的）过程中使用的新材料，包括金属、陶瓷甚至生物材料。这为医学等领域开辟了令人兴奋的可能性，在这些领域中，additive（添加的）技术可以用于创建量身定制的植入物或假肢，以适应个别患者。总之，通过additively（即通过添加的方式）修改材料的概念代表了我们对制造和设计的处理方式的重大转变。通过接受这种创新方法，我们可以解锁新的潜力，创造出不仅更高效而且更可持续的产品。随着我们继续探索additive（添加的）制造的能力，显然这项技术将在塑造各个行业的未来中发挥关键作用。