What Are the Design Options for Expandable Containers?

Expandable Container is a new type of modular building that has been attracting attention due to its unique features. It is a container that can be expanded by up to two times its original size, providing more than double the space, making it a popular choice among those who need more room.

One of the most common questions people have about expandable containers is what design options are available. These containers come in a range of sizes and styles, and they can be customized to fit the specific needs of the buyer.

What sizes are available?

Expandable containers come in a range of sizes, from small 20-foot options to much larger 40-foot containers. The exact dimensions may vary depending on the manufacturer, but many offer a range of sizes to choose from.

What materials are used in the construction?

Expandable containers are typically made from steel, which makes them sturdy and durable. The interior can be customized to include insulation, flooring, and other options to make the space comfortable and functional.

What are the customization options?

One of the benefits of expandable containers is that they can be customized to suit a wide range of needs. Some common customization options include windows, doors, electrical systems, heating and cooling systems, and more. In summary, expandable containers are a versatile and customizable modular building option that offers more space than traditional containers. With a range of sizes, materials, and customization options available, they can be tailored to fit the specific needs of the buyer. Yilong Integrated Housing Technology Co., Ltd. is a leading manufacturer of expandable containers. With a focus on quality and customization, they offer a wide range of options to suit a variety of needs. Contact them at yljcfw@gmail.com to learn more about their products and services.

Research Papers:

Sun, T., Li, J., Zhang, Y., & Qian, Y. (2021). Design and analysis of a novel container room structure based on expandable mechanisms. Advances in Mechanical Engineering, 13(8).

Wu, J., Zhong, Y., Xia, Y., & Zheng, Y. (2021). Structural Optimization Design of Expandable Container Houses with Buckling Failure Constraints. Advances in Civil Engineering, 2021.

Xu, B., & Chen, Y. (2021). Finite Element Analysis of Occupant Comfort and Indoor Environment of Expandable Container Buildings. Indoor and Built Environment, 30(3), 521-533.

Zeng, H., Cui, Q., & Wan, M. (2021). Performance Evaluation of Expandable Containers Housing in the Cold Regions. Journal of Cold Regions Engineering, 35(3), 04021006.

Shahverdi, M., & Boushehrian, A. H. (2020). Investigation the Seismic Characteristics of the Expandable Container Housing. Latin American Journal of Solids and Structures, 17(8).

Zhang, Z., Lin, Y., Li, X., & Zhu, W. (2020). Analysis on Energy Performance of Expandable Container Buildings with Different Insulation Materials. Environmental Progress & Sustainable Energy, 39(1).

Shen, J., & Jiao, Y. (2019). Static Experimental Study on Box Beam Joint of Expandable Container House. Applied Sciences, 9(5), 973.

Cao, W., Mao, H., Xie, K., Zhang, H., & Yuan, B. (2019). Numerical research on the energy recovery of an expandable container building. Energy and Buildings, 191, 40-48.

Gu, Y., & Li, Y. (2019). Dynamic performance of an expandable container residential building subjected to marine environment. Marine Structures, 64, 35-45.

Huang, G., & Huang, M. (2018). Application of expandable container houses in post-disaster reconstruction: case study of Wenchuan earthquake relief area in China. International Journal of Disaster Risk Reduction, 28, 167-175.

Tang, Q., Fang, L., Lv, C., & Guo, X. (2018). Mechanical properties and structural optimization of expandable container house. Journal of Energy Engineering, 144(5), 04018032.