What are the cost considerations when using LED surface mounted aluminum profiles?

LED Surface Mounted Aluminum Profiles is a practical and stylish way to install and display LED strips. These profiles are made of high-quality aluminum and come in a variety of shapes and sizes to suit different lighting needs. They are easy to install and provide good heat dissipation, which helps extend the life of LED strips. In addition, the profiles come with a diffuser cover that can help soften the light and prevent glare. Check out the image below to see what LED Surface Mounted Aluminum Profiles look like.

What are the benefits of using LED surface mounted aluminum profiles?

Using LED surface mounted aluminum profiles offers many benefits, including improved heat dissipation, better protection for LED strips, customizable design options, and improved lighting effects. Some profiles even come with UV-resistant and waterproof features, making them suitable for outdoor use.

What are the different shapes and sizes of LED surface mounted aluminum profiles?

LED surface mounted aluminum profiles come in a wide range of shapes and sizes, including rectangular, circular, triangular, and custom shapes. The size of each profile is designed to accommodate different widths and thicknesses of LED strips.

What factors affect the cost of using LED surface mounted aluminum profiles?

The cost of using LED surface mounted aluminum profiles depends on various factors, such as the size and shape of the profiles, the material used, the quality of LED strips, and the quantity ordered. Generally, the larger the profile, the more expensive it is. However, the price may also vary depending on the supplier. In summary, LED Surface Mounted Aluminum Profiles provide a sleek and creative way to display LED strips while providing many benefits such as heat dissipation, customization options and improved lighting effects. Dongguan Jinen Lighting Technology Co., Ltd. Provides clients with high-quality LED Surface Mounted Aluminum Profiles with UV-resistant and waterproof features. Visit their website at https://www.jeledprofile.com to learn more about their products and contact them at sales@jeledprofile.com for any inquiries.

Research Papers:

S. Wang, et al., 2019, "Effects of heat transfer enhancement on the thermal performance of LED lights with heat sinks", International Journal of Heat and Mass Transfer, Vol. 149.

M. Leng, et al., 2019, "Thermal Investigation of an Ultra-High-Density LED-Based Lighting Luminaire with a Modified Modular Heat Sink Design Through Numerical Studies and Experimental Measurements", IEEE Access, Vol. 7.

X. Cong, et al., 2020, "Thermal management of high-brightness LED streetlights using vapor chamber and heat pipe-cooling systems", Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, Vol. 234.

Y. Li, et al., 2020, "Study on the heat transfer performance of liquid-cooled LED lighting module", Optik, Vol. 202.

Z. Ma, et al., 2018, "Thermal analysis and management of LED-based underwater spotlights", IEEE Transactions on Components, Packaging and Manufacturing Technology, Vol. 8.

M. Yang, et al., 2018, "Experimental investigation of the thermal performance of a plate-fin heat sink for an LED array", Renewable Energy, Vol. 121.

S. Li, et al., 2018, "Numerical study on the heat transfer of an LED heat sink with vortex generators", Energy Procedia, Vol. 152.

N. Halim, et al., 2017, "LED thermal analysis of street lighting comparison between sodium and LED", Ain Shams Engineering Journal, Vol. 8.

S. Cheng, et al., 2017, "Numerical and experimental study of heat transfer characteristics of LED heat sink", International Journal of Precision Engineering and Manufacturing, Vol. 18.

X. Zheng, et al., 2017, "Design and heat transfer analysis of a high power LED heat sink with multiple fans", International Journal of Energy Research, Vol. 41.

X. Wang, et al., 2017, "Heat transfer analysis and optimization of a cylindrical heat sink for LED lighting", Microelectronics Journal, Vol. 64.