3D modelling

简明释义

三维模型;

英英释义

例句

1.The architect used 3D modelling to create a realistic visualization of the new building.

建筑师使用3D建模来创建新建筑的真实可视化效果。

2.Students in the art class learned 3D modelling techniques using software like Blender.

艺术课的学生学习了使用Blender等软件的3D建模技术。

3.The film industry often uses 3D modelling to create special effects and animated sequences.

电影行业经常使用3D建模来创建特效和动画序列。

4.In video game development, 3D modelling is essential for creating characters and environments.

在视频游戏开发中，3D建模对于创建角色和环境至关重要。

5.The product designer relied on 3D modelling to prototype the new gadget before production.

产品设计师依靠3D建模在生产前对新设备进行原型设计。

作文

In today's digital age, the importance of technology in various fields cannot be overstated. One of the most significant advancements is in the realm of design and visualization, particularly through the use of 3D modelling. 3D modelling refers to the process of creating a three-dimensional representation of an object using specialized software. This technique has revolutionized industries such as architecture, gaming, film, and product design, allowing for more accurate and detailed visualizations than ever before.The applications of 3D modelling are vast and varied. In architecture, architects use 3D modelling to create realistic representations of buildings and structures before they are constructed. This not only helps in visualizing the final product but also assists in identifying potential design flaws early in the process. By utilizing 3D modelling, architects can present their ideas to clients in a more engaging and understandable way, facilitating better communication and decision-making.In the entertainment industry, 3D modelling plays a crucial role in the creation of visual effects and animated characters. Films and video games rely heavily on 3D modelling to bring imaginative worlds and characters to life. For instance, the creation of lifelike characters in movies like "Avatar" or video games like "The Last of Us" would not be possible without advanced 3D modelling techniques. Artists can manipulate every aspect of a character's appearance and movements, resulting in a more immersive experience for the audience.Moreover, 3D modelling is becoming increasingly important in product design and manufacturing. Designers can create prototypes of products using 3D modelling software, enabling them to test functionality and aesthetics before physical production begins. This not only saves time and resources but also allows for iterative improvements based on feedback. For example, companies in the automotive industry utilize 3D modelling to design and refine vehicle components, ensuring that they meet safety and performance standards before mass production.Education is another field benefiting from 3D modelling. In classrooms, teachers can use 3D modelling to create interactive learning experiences. Students can explore complex concepts in subjects like biology, chemistry, and physics through virtual simulations. This hands-on approach enhances understanding and retention of information, making learning more effective.As technology continues to evolve, the future of 3D modelling looks promising. With the emergence of virtual reality (VR) and augmented reality (AR), the possibilities for 3D modelling are expanding even further. These technologies allow users to interact with 3D models in real-time, providing a more immersive experience. For example, in the field of medicine, surgeons can practice complex procedures using 3D models of patients' anatomy created from imaging data, leading to improved surgical outcomes.In conclusion, 3D modelling is a powerful tool that has transformed various industries by enhancing design, visualization, and communication. Its applications are diverse, ranging from architecture and entertainment to education and product design. As we move forward, the integration of 3D modelling with emerging technologies will undoubtedly lead to even greater innovations and advancements, making our world more interactive and visually rich. Understanding and mastering 3D modelling is essential for anyone looking to thrive in today’s technology-driven environment.

在当今数字时代，技术在各个领域的重要性不容小觑。其中最显著的进展之一是在设计和可视化领域，特别是通过使用3D建模。3D建模是指使用专业软件创建物体的三维表示的过程。这项技术彻底改变了建筑、游戏、电影和产品设计等行业，使得比以往任何时候都更准确和详细的可视化成为可能。3D建模的应用广泛而多样。在建筑中，建筑师使用3D建模来创建建筑和结构的真实表示，以便在施工之前进行可视化。这不仅有助于可视化最终产品，还可以帮助在过程中早期识别潜在的设计缺陷。通过利用3D建模，建筑师可以以更具吸引力和易于理解的方式向客户展示他们的想法，从而促进更好的沟通和决策。在娱乐行业，3D建模在视觉效果和动画角色的创建中发挥着至关重要的作用。电影和视频游戏在很大程度上依赖于3D建模来赋予富有想象力的世界和角色生命。例如，像《阿凡达》这样的电影或《最后生还者》这样的游戏中的栩栩如生的角色的创造，如果没有先进的3D建模技术，将是不可能的。艺术家可以操控角色外观和动作的每一个方面，从而为观众提供更具沉浸感的体验。此外，3D建模在产品设计和制造中变得越来越重要。设计师可以使用3D建模软件创建产品原型，使他们能够在物理生产开始之前测试功能和美学。这不仅节省了时间和资源，还允许根据反馈进行迭代改进。例如，汽车行业的公司利用3D建模来设计和完善车辆组件，以确保它们在大规模生产之前符合安全和性能标准。教育是另一个受益于3D建模的领域。在课堂上，教师可以使用3D建模创建互动学习体验。学生可以通过虚拟模拟探索生物学、化学和物理等学科中的复杂概念。这种动手的方法增强了对信息的理解和记忆，使学习更有效。随着技术的不断发展，3D建模的未来看起来充满希望。随着虚拟现实（VR）和增强现实（AR）的出现，3D建模的可能性正在进一步扩展。这些技术使用户能够实时与3D模型互动，提供更身临其境的体验。例如，在医学领域，外科医生可以使用从成像数据创建的患者解剖结构的3D模型练习复杂的手术，从而提高手术结果。总之，3D建模是一种强大的工具，通过增强设计、可视化和沟通，彻底改变了各个行业。它的应用多样，从建筑和娱乐到教育和产品设计。随着我们向前迈进，3D建模与新兴技术的结合无疑将带来更大的创新和进步，使我们的世界更加互动和视觉丰富。理解和掌握3D建模对任何希望在当今技术驱动环境中蓬勃发展的个人来说都是至关重要的。