thermoform
简明释义
n. 加热成形
vt. 使加热成形
vi. 加热成形
第 三 人 称 单 数 t h e r m o f o r m s
现 在 分 词 t h e r m o f o r m i n g
过 去 式 t h e r m o f o r m e d
过 去 分 词 t h e r m o f o r m e d
英英释义
To shape or mold a thermoplastic material by heating it until pliable and then forming it over a mold. | 通过加热热塑性材料使其变得柔软,然后在模具上成型或塑造。 |
单词用法
同义词
反义词
| 冷却 | The cooling process is essential for solidifying the material. | 冷却过程对固化材料至关重要。 | |
| 硬化 | 硬化后,塑料不易重新成型。 |
例句
1.Another intriguing example of packaging made smart by its functional attributes is the two-compartment thermoform that holds cafe Switch.
另一个有趣的例子,包装作出智能的功能属性是双室加热成型持有咖啡开关。
2.For optimum resistance to damage or theft, fully transparent custom thermoform clamshell (sometimes spelled "clam shell") packaging or blister packaging are ideal.
为获得最佳抗破坏或盗窃,完全透明的翻盖定制加热成型(有时拼写为“蚬壳”)包装或吸塑包装是理想的。
3.For optimum resistance to damage or theft, fully transparent custom thermoform clamshell (sometimes spelled "clam shell") packaging or blister packaging are ideal.
为获得最佳抗破坏或盗窃,完全透明的翻盖定制加热成型(有时拼写为“蚬壳”)包装或吸塑包装是理想的。
4.The company specializes in thermoform packaging for food products.
该公司专注于食品产品的热成型包装。
5.In the automotive industry, parts are often thermoformed to achieve lightweight designs.
在汽车行业,零部件通常被热成型以实现轻量化设计。
6.To create the packaging, they decided to thermoform the material for better durability.
为了制作包装,他们决定热成型材料以提高耐用性。
7.The artist used thermoform techniques to shape the sculpture from acrylic.
艺术家使用热成型技术将丙烯酸塑造成雕塑。
8.The factory uses a process to thermoform plastic sheets into containers.
工厂使用一种工艺将塑料薄膜热成型为容器。
作文
In the modern manufacturing industry, the process of thermoform plays a crucial role in the production of various plastic products. Thermoform refers to a method where plastic sheets are heated until they become pliable and then shaped into specific forms using molds. This technique is widely utilized due to its efficiency and versatility, allowing manufacturers to create complex shapes that would be difficult or impossible to achieve with traditional methods. For instance, items such as packaging materials, automotive parts, and even household goods can be produced through thermoforming. The process begins with selecting the right type of plastic, which can include polystyrene, polyethylene, or polyvinyl chloride (PVC). Each material has its unique properties, making it suitable for different applications.Once the plastic sheet is chosen, it is heated in an oven until it reaches the desired temperature. This heating stage is critical, as overheating can lead to degradation of the material, while underheating may prevent the sheet from becoming sufficiently pliable. After the plastic is adequately heated, it is then stretched over or into a mold. The mold can be made from various materials, including aluminum or steel, and is designed to give the final product its shape.The next step involves cooling the shaped plastic, which solidifies it into its new form. Cooling can be achieved naturally or through the use of cooling systems, depending on the complexity of the design and the type of plastic used. Once cooled, the newly formed plastic can be trimmed and finished to meet the required specifications.One of the significant advantages of the thermoform process is its cost-effectiveness. Unlike injection molding, which requires expensive molds and longer production times, thermoforming allows for quicker turnaround times and lower initial costs. This makes it an attractive option for small to medium-sized production runs. Additionally, thermoform products can be easily recycled, contributing to sustainability efforts in the manufacturing sector.Moreover, advancements in technology have further enhanced the thermoforming process. With the introduction of computer-aided design (CAD) software, manufacturers can now create more intricate designs and prototypes before moving to mass production. This not only saves time but also reduces material waste, as adjustments can be made digitally before any physical production takes place.In conclusion, the thermoform process is a vital part of modern manufacturing that enables the efficient production of a wide range of plastic products. Its ability to create complex shapes at a lower cost and with reduced environmental impact makes it a preferred choice for many industries. As technology continues to evolve, it will be exciting to see how thermoforming adapts and improves, potentially leading to even more innovative applications in the future.
在现代制造业中,热成型工艺在各种塑料产品的生产中发挥着至关重要的作用。热成型是指一种方法,其中塑料薄片加热至变得柔韧,然后使用模具成型。这种技术因其效率和多功能性而被广泛应用,使制造商能够创建复杂的形状,这在传统方法中可能难以实现。例如,包装材料、汽车零件甚至家庭用品都可以通过热成型生产。该过程始于选择合适类型的塑料,包括聚苯乙烯、聚乙烯或聚氯乙烯(PVC)。每种材料都有其独特的特性,使其适用于不同的应用。一旦选择了塑料薄片,就会将其放入烤箱中加热,直到达到所需温度。加热阶段至关重要,因为过热可能导致材料降解,而加热不足可能会阻止薄片变得足够柔韧。在塑料充分加热后,它会被拉伸到模具上或模具内。模具可以由多种材料制成,包括铝或钢,并设计成赋予最终产品其形状。接下来的步骤涉及冷却成型的塑料,以使其固化为新的形状。冷却可以通过自然方式或使用冷却系统来实现,具体取决于设计的复杂性和所用塑料的类型。冷却后,新成型的塑料可以被修剪和加工以满足所需规格。热成型工艺的一个显著优点是其成本效益。与注塑成型需要昂贵的模具和更长的生产时间不同,热成型允许更快的周转时间和较低的初始成本。这使其成为小型到中型生产批次的有吸引力的选择。此外,热成型产品可以很容易地回收,促进了制造行业的可持续发展努力。此外,技术的进步进一步增强了热成型过程。随着计算机辅助设计(CAD)软件的引入,制造商现在可以在进入大规模生产之前创建更复杂的设计和原型。这不仅节省了时间,还减少了材料浪费,因为可以在任何物理生产发生之前进行数字调整。总之,热成型工艺是现代制造的重要组成部分,能够高效地生产各种塑料产品。其以较低的成本和减少环境影响创造复杂形状的能力,使其成为许多行业的首选。随着技术的不断发展,令人期待的是热成型如何适应和改善,可能会在未来带来更多创新的应用。
