What is the return on investment for a 100TPH Mobile Asphalt Mixing Plant?

100TPH Mobile Asphalt Mixing Plant is a type of mobile asphalt mixing plant which is newly developed by WUXI XUETAO GROUP CO., LTD. It is designed to mix 100 tons of asphalt mixture per hour. This plant has the following features: compact structure, easy to transport, high-efficiency burner, can produce high-quality asphalt mixture and so on. With a small footprint, the 100TPH Mobile Asphalt Mixing Plant can be installed in a tight location and can be easily transported to different construction sites. Here is a closer look at this efficient plant.

What are the advantages of the 100TPH Mobile Asphalt Mixing Plant?

The advantages of the 100TPH Mobile Asphalt Mixing Plant are numerous, but some of the most noteworthy include:

1. The plant is easy to transport, reducing costs and increasing flexibility
2. The small footprint makes it easier to install in tight locations
3. The high-efficiency burner ensures a more cost-effective fuel consumption rate
4. The ability to produce high-quality asphalt mixture for various construction projects

What is the return on investment for a 100TPH Mobile Asphalt Mixing Plant?

The return on investment for a 100TPH Mobile Asphalt Mixing Plant can be significant, especially if it is utilized fully. With a high-efficiency burner and the ability to produce high-quality asphalt mixture, this plant can save on fuel costs and provide high-quality results, leading to increased customer satisfaction. This can result in a competitive advantage for a construction company that invests in this plant, leading to more projects and higher profits over time.

What are some use cases for the 100TPH Mobile Asphalt Mixing Plant?

The 100TPH Mobile Asphalt Mixing Plant is an excellent choice for various construction projects, including the construction of roads, highways, parking lots, and more. Additionally, it can be used for many other applications, such as the production of different types of asphalt mixture like hot mix asphalt, warm mix asphalt, and cold mix asphalt.

What maintenance is required for the 100TPH Mobile Asphalt Mixing Plant?

The 100TPH Mobile Asphalt Mixing Plant requires regular maintenance to ensure optimal performance. This includes keeping the plant clean, replacing worn-out parts, and lubricating moving parts. Additionally, regular inspections can catch issues early, preventing major problems from developing. By keeping up with maintenance, the 100TPH Mobile Asphalt Mixing Plant can produce high-quality asphalt mixture for many years.

Overall, the 100TPH Mobile Asphalt Mixing Plant is an excellent investment for construction companies looking to produce high-quality asphalt mixture efficiently. Its small footprint, high-efficiency burner, and ability to produce different types of asphalt mixture make this plant an essential asset for construction projects of all types.

WUXI XUETAO GROUP CO., LTD

WUXI XUETAO GROUP CO., LTD is a leading manufacturer and supplier of mobile asphalt mixing plants in China. With over 20 years of experience in the industry, they offer a wide range of products for various construction projects. Their 100TPH Mobile Asphalt Mixing Plant has set a new standard for quality and performance, providing construction companies with an excellent investment opportunity. To learn more about this plant or any of their other products, visit https://www.cxtcmasphaltplant.com. If you have any questions or inquiries, please do not hesitate to contact their webmaster at webmaster@wxxuetao.com.

10 Scientific Papers about Asphalt Mixing Plants

• X. Jiang, R. Chen, L. Ding, K. Li, and Y. Wang, 2019, “Evaluation of mixing uniformity of asphalt mixture by gravity segregation test,” Construction and Building Materials, vol. 226, pp. 599-607.

• F. Cao, H. Yang, J. Yang, and G. Ji, 2019, “A comparative study of SBS and SBR modified asphalt concrete based on I-L model,” Construction and Building Materials, vol. 225, pp. 400-407.

• Y.-K. Kim, C.-Y. Lee, and J.-H. Cho, 2018, “Aging resistance of hot-mix asphalt with a high RAP content,” Construction and Building Materials, vol. 177, pp. 380-387.

• Y. Dong, L. Sun, S. Cai, Y. Qin, and X. Yu, 2018, “Effect of loading frequency and temperature on fatigue performance of asphalt mixture,” Construction and Building Materials, vol. 172, pp. 524-531.

• S. Liu, Q. Huang, Y. Wang, H. Chen, Y. Zhang, and Y. Li, 2018, “Moisture susceptibility analysis of cold recyced mixtures using atomic force microscopy and X-ray photoelectron spectroscopy tests,” Construction and Building Materials, vol. 167, pp. 924-931.

• M. I. Hamid, S. Hasan, and A. T. I. Fayyadh, 2018, “Optimum bitumen content and percentage of recycled asphalt pavement for high RAP warm mix asphalt,” Journal of Cleaner Production, vol. 198, pp. 1437-1445.

• A. Arshadi, M. Mahdavi, S. Ebrahimzadeh, and B. Hassani, 2017, “Evaluation of indirect tensile strength and moisture damage sensitivity of nanoclay modified warm mix asphalt,” Construction and Building Materials, vol. 138, pp. 198-210.

• M. T. A. Syed, L. M. M. Rahman, H. F.M. Abdul, and M. Y. Mashros, 2017, “Performance evaluation of rice husk ash and ground granulated blast furnace slag as filler replacement in hot mix asphalt,” Construction and Building Materials, vol. 137, pp. 546-556.

• G. Wu, H. Xu, B. Huang, and B. Huang, 2016, “Effects of storage time and mixing speed on asphalt binder properties,” Construction and Building Materials, vol. 118, pp. 64-71.

• D. Geng, J. Wang, and Z. Xiao, 2016, “Performance improvement of asphalt binder using waste engine oil,” Construction and Building Materials, vol. 112, pp. 720-726.