Dental Led Light Cure

A dental light cure machine is an essential tool for dentists. Find out what they do and why they’re so important! Discover the top 10 dental led lights cures for your practice!

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Dental light-curing units are handheld devices that are used for the polymerization of visible light–activated dental materials.

FDA Clearance of Dental Curing Lights. To market or sell a dental curing light in China. Providing you the best range of dental led light cure coltene coltolux led and dental led curing light with effective & timely delivery.

This dental lab-led light curing machine features fast curing and high power LEDs to save fabricating denture restoration time. Our curing light unit has no need to change the UV fluorescent light tube, and there is an internal fan included.

Dental lab led cure box application of restoration material and denture type:

  • Light Cured Dental composite materials
  • Crown and Bridge
  • Partial frameworks
  • Inlays and Onlays
  • Models


  • Using imported high-power cold light curing light source, deep curing, consistent hardness, high surface brightness
    360 degree no dead angle, all-round curing design
  • Three light sources are available, the curing wavelength is accurate, the light intensity is strong, and the best curing effect
    Suitable for light-curing poly ceramics on the market
  • It can repair pure titanium, metal outer crown, inlay veneer, precision attachment appearance
  • Automatic door opening and closing, convenient for workpiece extraction
  • Radiation protection, safe operation

Types of Curing Lights

  • LED Lights – L.E.D., or Light Emitting Diode, restricts the current flow of light into one direct through its connection to a circuit. With these curing lights, they’re lightweight, small, have a long battery light, and by today’s standards give off the most consistent curing by its design. L.E.D. can refer to either blue light or multi-wave light of both blue and violet. The blue light activates the photoinitiator while the multi-wave activates both the photoinitiator and alternative initiator. Some may lack tip selections, lack timers, and may have a harder time curing certain composites. Most new-style L.E.D. curing lights have a better time with beam divergence, and any tips that fan out the light in a cone shape can divert the curing process and divert the energy needed to cure the composite.
  • Halogen – While considered to be an outdated product by industry standards, halogen lights have a reliable long track record for creating consistent cures. Halogen curing lights have a wider selection of curing materials it can work with due to its wide bandwidth. However, its design causes the need for cooling fans and a cord but does benefit from lower prices.
  • Plasma Arc – A plasma arc curing light consists of having an aluminum oxide vessel containing high energy xenon gas under 150 psi. These curing lights produce focused beams and typically are designed within large base units and small tips for the desired effect. However, it lacks the ability to cure all materials and can be quite expensive.
  • Argon Laser – Argon lights generate light through applying energy to the atoms of argon gas, where the electrons are raised higher in numbers to an unstable level, and then release light through the argon gas. As some of the most expensive forms of curing lights, these create fast curing times and require a large unit to encompass the laser. However, it may not cure all materials and require small tips and cords to function.

The amount of light measured from a curing light is measured in mW/cm2. Most LED options have power greater than 1000 mW/cm2, and will do a great job of curing your materials. The higher the output, the faster something will cure, and potentially be able to cure at greater depths.

Halogen lights always had the benefit of pumping out a broad spectrum in terms of the wavelength of the light emitted. This meant they could be compatible and cure any dental bonding materials. LEDs tend to have a more concise wavelength. One of the most important things to know is whether or not the wavelength being emitted will be compatible with the photoinitiator in your existing materials.

Depending on the procedures you perform in your office, you may want a light that has variable curing modes. Low curing settings can help to reduce shrinkage or be gentler to pulp tissue in the case of deeper restorations. Ramp modes are also available, starting off at lower output and slowly increasing to the highest output. It will also help to have a light that allows you to set variable times to be the most compatible with you materials.

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