glass for building purposes

简明释义

建筑用玻璃

英英释义

Glass for building purposes refers to specially manufactured glass products that are used in the construction of buildings, such as windows, facades, and partitions, providing both aesthetic appeal and functional benefits like insulation and safety.

建筑用玻璃是指专门制造的用于建筑施工的玻璃产品,如窗户、外立面和隔断,既提供美观的外观,又具备隔热和安全等功能。

例句

1.The architect specified high-performance glass for building purposes to enhance energy efficiency.

建筑师指定了高性能用于建筑的玻璃以提高能源效率。

2.The contractor ordered special glass for building purposes that can withstand extreme weather conditions.

承包商订购了可以承受极端天气条件的特殊用于建筑的玻璃

3.Innovative designs often utilize glass for building purposes to create open and airy spaces.

创新设计通常利用用于建筑的玻璃来创造开放和通透的空间。

4.The new office complex features large windows made of glass for building purposes that reduce noise pollution.

这座新办公大楼的窗户采用了减少噪音污染的用于建筑的玻璃

5.Using tempered glass for building purposes can increase safety in commercial properties.

在商业地产中使用钢化用于建筑的玻璃可以提高安全性。

作文

The use of glass for building purposes has transformed the architecture and construction industry over the past few decades. Traditionally, buildings were constructed using brick, stone, and wood, which provided durability but often lacked aesthetic appeal. However, with advancements in technology and materials science, glass for building purposes has emerged as a popular choice among architects and builders. This shift can be attributed to several factors, including the desire for natural light, energy efficiency, and modern design aesthetics.One of the primary advantages of using glass for building purposes is its ability to allow natural light to flood into interior spaces. Natural light is not only essential for the well-being of occupants but also reduces the need for artificial lighting during the day. Buildings designed with large glass facades create bright and inviting environments that enhance the quality of life for those who work or live inside them. For instance, office buildings with extensive glass windows can improve employee productivity and morale by providing a connection to the outside world.Furthermore, modern glass for building purposes is designed to be energy-efficient. Innovations such as double-glazing, low-emissivity coatings, and insulated glass units help regulate indoor temperatures and reduce energy consumption. These technologies minimize heat loss during winter and keep interiors cool during summer, leading to lower energy bills and a smaller carbon footprint. As sustainability becomes an increasingly important consideration in construction, the use of energy-efficient glass for building purposes aligns with green building practices and certifications.In addition to practical benefits, glass for building purposes offers unique design possibilities that can elevate the visual appeal of structures. Architects can experiment with various shapes, sizes, and textures of glass to create stunning facades and interiors. The transparency of glass allows for creative designs that blur the boundaries between indoor and outdoor spaces, promoting a sense of openness and connectivity with nature. Notable examples include the Louvre Pyramid in Paris and the Apple Park in California, both of which utilize glass for building purposes to make bold architectural statements.However, the use of glass for building purposes is not without challenges. Safety concerns regarding breakage and thermal performance must be addressed in design and construction. Additionally, excessive use of glass can lead to glare and overheating in certain climates, necessitating careful planning and the incorporation of shading devices. Despite these challenges, ongoing research and development continue to improve the performance and safety of architectural glass.In conclusion, the integration of glass for building purposes in modern architecture reflects a broader trend towards transparency, sustainability, and innovative design. As technology advances, we can expect to see even more creative applications of glass in the built environment. Its ability to enhance natural light, improve energy efficiency, and offer aesthetic flexibility makes glass for building purposes a vital component of contemporary construction. Embracing this material not only enriches our architectural landscapes but also contributes to creating healthier, more sustainable living and working spaces.

在过去几十年中,使用建筑用玻璃已经改变了建筑和施工行业。传统上,建筑是使用砖、石头和木材建造的,这些材料提供了耐用性,但往往缺乏美观。然而,随着技术和材料科学的进步,建筑用玻璃已成为建筑师和建筑商的热门选择。这一转变可以归因于多个因素,包括对自然光的渴望、能源效率和现代设计美学。使用建筑用玻璃的主要优点之一是它能够让自然光充满室内空间。自然光不仅对居住者的健康至关重要,还减少了白天对人工照明的需求。设计有大型玻璃立面的建筑创造了明亮而宜人的环境,提高了居住或工作在其中的人们的生活质量。例如,拥有广泛玻璃窗的办公楼可以通过提供与外界的联系来提高员工的生产力和士气。此外,现代建筑用玻璃被设计为节能的。双层玻璃、低辐射涂层和绝缘玻璃单元等创新技术有助于调节室内温度并减少能源消耗。这些技术在冬季最小化热量损失,在夏季保持室内凉爽,从而降低能源费用和减少碳足迹。随着可持续性在建筑中的重要性日益增加,使用节能的建筑用玻璃符合绿色建筑实践和认证。除了实用好处之外,建筑用玻璃还提供了独特的设计可能性,可以提升结构的视觉吸引力。建筑师可以尝试各种形状、尺寸和纹理的玻璃,以创造令人惊叹的外立面和室内空间。玻璃的透明性允许创造性的设计模糊室内和室外空间之间的界限,促进开放性和与自然的连接感。著名的例子包括巴黎的卢浮宫金字塔和加州的苹果公园,它们都利用建筑用玻璃来做出大胆的建筑声明。然而,使用建筑用玻璃并非没有挑战。在设计和施工中,必须解决有关破裂和热性能的安全问题。此外,在某些气候条件下,过度使用玻璃可能导致眩光和过热,因此需要仔细规划并纳入遮阳装置。尽管面临这些挑战,但持续的研究和开发不断改善建筑玻璃的性能和安全性。总之,现代建筑中建筑用玻璃的整合反映了朝向透明性、可持续性和创新设计的更广泛趋势。随着技术的进步,我们可以期待在建筑环境中看到更多创造性的玻璃应用。它增强自然光、提高能源效率和提供美学灵活性的能力使得建筑用玻璃成为当代建筑的重要组成部分。拥抱这种材料不仅丰富了我们的建筑景观,还有助于创造更健康、更可持续的生活和工作空间。