5 Reasons Why Your Business Needs Optical Mirrors?

Author: May

Jul. 15, 2024

5 Commercial Mirror Types For Design and Function

In creating a certain look and feel for a space, using the right commercial mirror types can be the perfect complement to any design. 

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Through modern manufacturing techniques, commercial mirror is now more than just silver-backed panes of glass to see reflections in. With a plethora of colors, styles, and types to choose from, commercial mirror is easily integrated into most design schemes. It can serve as either a statement-making focal point or a subtle aesthetic enhancement that doesn't sacrifice intended use. 

With the right commercial mirror types, you won&#;t need to choose between design and function -- both considerations are brought together. 

5 Commercial Mirror Types That Blend Aesthetics and Utility 

A versatile design element, commercial mirror adds the right finishing touch to a project with its combination of form and function. 

Popular commercial mirror types include:

  1. Colored mirror glass
  2. Low-iron mirror
  3. Copper-free mirror
  4. Antique-style mirror
  5. Two-way mirror

1. Colored Mirror 

Whether it&#;s creating depth, adding brightness, or just making a space look more distinct, colored mirror glass is an eye-catching option for enhancing a project&#;s aesthetics. Adding colored mirror to a space is also an easy way to forgo traditional design embellishments, such as bold paint color or other decorative elements. 

Unique colored mirror glass options include: 

You&#;ll find colored mirror glass mostly in indoor spaces, such as:

  • Hotels
  • Bars and restaurants
  • Reception halls

2. Low-Iron Mirror 

In some projects, clarity is key.  

Made with low-iron glass -- one of the clearest types of commercial glass -- low-iron mirror boasts supreme clarity and a colorless appearance. With no visual obstructions or filtering colors, reflected light shines more brilliantly, allowing for a true representation. 

Low-iron glass mirror, such as Starphire Ultra-Clear&#;, is optimal for:

  • Bathrooms 
  • Display cases 
  • Studios
  • Bars and restaurants 
  • Bridal shops and boutiques 

3. Copper-Free Mirror 

Copper-free mirror is made to last. 

Manufactured with specialized silver paint and several protective coatings, copper-free mirror doesn&#;t fall victim to common issues seen in traditional mirror. With the additional layers of protection, the mirror&#;s reflective surface does not easily succumb to humidity, which causes its reflective paint to corrode or peel. For as long as the mirror is used, its reflectivity maintains its integrity. 

Copper-Free Mirror is best suited for:

  • Bathrooms
  • Gyms and athletic facilities
  • Wardrobes and dressers
  • Display cases

(We can only provide copper-free mirror for large-quantity projects). 

4. Antique Mirror 

Ideal for restoration projects, antique-style mirror achieves a vintage look without having to actually purchase old mirror glass. 

Like other commercial mirror types, there are plenty of antique-style mirror options to choose from. You&#;ll have no problem finding a product that helps you achieve accuracy or pay homage to an historic era in your project. Being a specialty glass, antique-style mirror does have some size and shaping limitations. It's important to talk with your glass fabricator about the intent of your project with this material, as there are some considerations in working with it. 
 

5. Two-Way Mirror  

When mirror needs to serve the dual purposes of bringing form and enhanced security to a space, two-way mirrors, such as Mirropane, check both boxes. 

With competitive price and timely delivery, yanggu sincerely hope to be your supplier and partner.

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Similar to a window, viewers on the backside of the mirror have an unobstructed -- and undetectable -- view of a room. On the other side, Mirropane appears as just a normal mirror. 

In design, a two-way mirror blends in seamlessly into a room&#;s decor. For security, those monitoring a space are able to do so without being noticed. 

Two-way mirrors are ideal for a variety of spaces, including: 

  • Retail stores
  • Supermarkets
  • Banks or cash offices
  • Child care facilities
  • Hotel lobbies 
  • Police stations 

 

Fabrication Considerations When Ordering Commercial Mirror 

Regardless of the type of commercial mirror used for your project, there are a few considerations when ordering it from a commercial glass company. 

There&#;s nothing worse than receiving a mirror pane that isn&#;t what you wanted -- whether it doesn&#;t fit where it&#;s supposed to or the holes and cutouts aren&#;t right. Not only does reordering waste time, but it also costs money

When working with a commercial glass company, it&#;s critical to share the details about your project. With an understanding of intended use, hardware requirements, or shaping needs, your manufacturer is able to create finished pieces that meet your project&#;s needs. 

It&#;s also important to pay attention to local building codes. 

In some municipalities, there are stringent rules for installing mirrors in public spaces or commercial locations. One of the most common regulations in fabricating mirrors is that they require safety backings. A polypropylene film is applied to the back of a mirror sheet, safety backing keeps a mirror intact should it break. In other words, it prevents dangerous glass shards from falling out of a broken mirror. 

Safety backing is often required for mirrors in:

  • Wardrobe or closet doors
  • Fitness rooms and gyms
  • Dressing rooms
  • Bars and restaurants  

Choosing the Right Commercial Mirror Types for Your Project  

How do you know which mirror type is right for your purposes? That starts with intent and placement. 

Unless deliberate by design, mirrors shouldn&#;t seem out of place. Commercial mirrors should appear as a natural addition to a project. 

A few considerations to keep in mind:

  • In spaces meant to be bright, certain colored mirrors -- such as black or grey -- may not be a good choice. However, those same mirrors are better suited to create a deep, luxurious aesthetic for a room.
  • Antique mirror doesn't have universal application. It might look out of place in a modern design scheme, though it can add distinct contrast if used correctly. 
  • Just as color and style play a big role in how well a mirror complements a space, so too does its shape. 
  • Additional enhancements to commercial mirrors include beveling, v-grooving, and edgework. 

Just like with fabrication, a commercial glass company is able to offer expertise on mirror glass selection for your project.

Elevating Your Project With Commercial Mirror 

Whether it&#;s to stand out or quietly boost aesthetics, integrating commercial mirror into your project helps you create a finished product that meets your design vision without sacrificing practicality. With its combination of form and function and plenty of options, commercial mirror is an investment in creativity and utility. 

Commercial Mirror for Your Project 

Mirror has a long life. Learn what it takes to properly care for your mirrors from the day you receive them to long after they're installed:

(Editor's note: this blog post was originally published in January and was recently updated.)

10 Steps to Consider when Designing Your Optical Mirror

,Step Feature Specification Characteristics / Benefits Limitations 1 Specify the Quantity Quantity Required &#; The larger the quantity of pieces that can be used in an application, the less expensive each part becomes as material, labor and coating charges can be divided over the total number of parts.

&#; Advanced Optics has the ability to modify catalog/overrun optical mirrors (when possible) to reduce costs and lead times. Small number of prototypes may be more expensive due to lot charges for glass and coating. 2 Select the Material Soda-lime Glass
&#; Commonly known as float glass. &#; Least expensive of all glass types. &#; Can be polished 1-3 waves/inch. &#; May be tempered making it 3 times stronger than non-tempered glass. &#; Softer than borosilicate glass making it easily scribed and broken.
&#; Cannot be precision polished and is available in commercial grade only (1-3 waves/inch).
&#; Has the lowest thermal shock and chemical resistance of all glass materials used to fabricate optics.
&#; Not as scratch resistant as borofloat, quartz or fused silica. BOROFLOAT®33 &#; Borofloat®33 is a borosilicate glass with a low thermal expansion.
&#; Good all around general purpose mirror substrate that is moderately priced.
&#; Easier to polish than harder materials such as fused quartz, fused silica or Zerodur® and is much less costly. &#; May be polished down to λ/10, but is not suitable for polishing down to λ/20.
&#; 2-3 times more costly than float glass (soda-lime glass).
&#; Not as thermally shock resistant as fused quartz or fused silica.
&#; Cannot be fully tempered like soda-lime glass.
&#; Not suitable for extreme high temperature conditions and will not hold its shape over 450° C for long periods of time. N-BK7® &#; Common borosilicate crown glass know for its low bubble and inclusion content.
&#; Economically priced, may be used as an optical mirror substrate, but more commonly used in the manufacture of optical windows. N-BK7 is not recommended for applications where thermal shock is a factor. Viosil &#; Viosil is a synthetic quartz glass substrate manufactured by ShinEtsu.
&#; The absence of bubbles and inclusions make it an excellent window substrate.
&#; It offers excellent chemical resistance, mechanical strength and high heat resistance. Carry glass only up to .250&#; thick. Fused Silica &#; Made from a synthetically derived silicon dioxide that is extremely pure.
&#; It is a colorless, non-crystalline silica glass.
&#; The main difference between fused silica and fused quartz is that the former is composed of a non-crystalline silica glass while the latter is composed of a crystalline silica glass.
&#; Advantages of fused silica over fused quartz include; greater ultraviolet and infrared transmission, a wider thermal operating range, increased hardness and resistance to scratching and a lower CTE which provides resistance to thermal shock over a broad range of temperatures.
&#; As opposed to other less costly glasses, the surface figure (flatness) of optical mirrors made of fused silica are not at risk in applications that expose the material to coatings applied at high temperatures or applications that require the material to remain flat at high and/or varying temperatures.
&#; Fused silica is also chemically resistant and provides superior transmittance in the UV spectrum when compared to fused quartz.
&#; Fused silica comes in many grades with the most common being 2G. Please visit Corning&#;s Quality Grade Selection Chart for further information. &#; Very hard glass making it more difficult to fabricate than float or crown glasses.
&#; Raw material is more costly than float or crown glasses.
&#; The homogeneity of fused silica exceeds that of crystalline fused quartz, however standard 2G (UV grade) material has a higher OH content which cause dips in transmission at 1.4µm, 2.2µm and 2.7µm. These dips can be eliminated by using a more expensive grade of IR fused silica. Quartz &#; Made from naturally occurring crystalline quartz or silica grains whereas fused silica is entirely synthetic.
&#; Fused quartz and fused silica are both extremely pure materials and have very low thermal expansion rates. However, fused quartz is more cost effective.
&#; Known for its incredible thermal shock resistance, chemical resistance and for being an excellent electrical insulator.
&#; Fused quartz has more metallic impurities and a lower OH content than standard UV grade fused silica which has dips in transmission at 1.4µm, 2.2µm and 2.7µm. These dips can be eliminated by using a more expensive grade of IR fused silica. &#; Very hard glass making it more difficult to fabricate than float or crown glasses.
&#; Raw material is more costly than float or crown glasses, but less expensive than fused silica.
&#; Fused quartz shares many of the same advantages of fused silica with the exception of metallic impurities found in the mined, natural quartz or silica sand. These impurities inhibit the materials ability to transmit well in the UV spectrum. ULE® Low Expansion Glass ULE® is a titania-silicate glass with near zero expansion characteristics that have made it the material of choice in unique applications such as machine tool reference blocks, gratings, interferometer reference mirrors, and telescope mirrors. Low expansion glasses offer unique characteristics that make them the material of choice for certain applications, although the material tends to be more costly than its float or crown glass counterparts. ClearCeram®-Z ClearCeram®-Z is a glass-ceramic material that offers an ultra low thermal expansion and is Ohara's equivalent to Zerodur® which is manufactured by Schott. Low expansion glasses offer unique characteristics that make them the material of choice for certain applications, although the material tends to be more costly than its float or crown glass counterparts. ZERODUR® &#; Glass-ceramic material which has a yellowish tint.
&#; Extremely low thermal expansion coefficient which approaches zero allowing it to be used to produce mirrors that retain their surface figures in extremely cold environments such as space.
&#; The CTE of Zerodur® is lower than ULE, fused quartz and fused silica.
&#; Known for its low level of bubbles and striae, internal stress and its excellent chemical resistance. &#; Yellow tint.
&#; Low expansion glasses offer unique characteristics that make them the material of choice for certain applications, although the material tends to be more costly than its float or crown glass counterparts. 3 Determine the Size/Shape Round
Rectangular
Square
Custom Round provides the best opportunity for obtaining flatness/accuracy. Square, rectangular and custom shapes provide more challenges to maintaining surface flatness. 4 Refine your Mechanical Tolerances Defines the acceptable limits of both size and thickness required for an application. Specified in inches or mm and typically given a +/- value.
&#; Round: Provide tolerance for diameter.
&#; Rectangular/Square: Provide tolerance for LxW.
&#; Thickness: Provide tolerance for thickness. &#; Tighter tolerances for diameter and LxW are typically easier to hold than for thickness.
&#; Extremely tight tolerances available, but may require specialized techniques and can reduce yield leading to increased costs.
&#; Loosening your tolerances can reduce costs. 5 Establish the Correct Accuracy Commercial grade
1-3 waves/inch

Precision polished λ/4 or λ/10


Precision polished λ/10 or λ/20 Commercial grade mirrors are generally made from less expensive materials such as soda-lime glass and borofloat.

Working grade mirrors are polished either λ/4 or λ/10 and most often made of Borofloat®33 or N-BK7.

&#; Precision grade mirrors are polished either λ/10 or λ/20 and are typically made from harder glass materials such as quartz, fused silica or Zerodur®.
&#; To achieve the best accuracy, optical mirrors are polished in a 6:1 aspect ratio (diameter to thickness). The higher the ratio, the greater probability the glass will distort during the manufacturing process. When the glass is deblocked after polishing, mirrors with non-standard aspect ratios may spring as they do not have the stability to hold surface flatness.
&#; Advanced Optics manufactures precision grade mirrors with non-standard aspect ratios. Achievable surface accuracy is dependent on choice of substrate and thickness of material. 6 Specify the Surface Quality Provide the required
Scratch and Dig 80-50: Commercial grade mirrors, suitable for non-critical applications, easily manufactured, lowest cost.

60-40 or 40-20: Working grade mirrors, precision quality, suitable for most scientific and research applications as well as low to medium power lasers, intermediate price point.

20-10 or 10-5: Precision grade, suitable for high power lasers, highest cost. Extremely tight tolerances available, but may require specialized techniques and can reduce yield leading to increased costs. 7 Provide Parallelism (if required) Amount of wedge or variation in thickness allowed over the surface of a part.

It is defined in arc minutes (an angular measurement that is 1/16th of a degree) or arc seconds where 60 arc seconds is equal to 1 arc minute.
Advanced Optics can hold parallelism of < 2 arc seconds.

Are you interested in learning more about Optical Mirrors? Contact us today to secure an expert consultation!

Extremely tight requirements for parallelism require specialized manufacturing techniques which may reduce yield and increase manufacturing costs. 8 Define the Clear Aperture/ Edge Bevel Requirements The clear aperture is the percentage of useable area of an optical mirror.

An edge bevel or safety chamfer is applied around the edge of an optical mirror.
Normally 90% or advise requirement.


An edge bevel or safety chamfer is applied around the edge of an optical mirror to eliminate sharp edges and reduce edge chips caused by cutting of the glass. Typically between .010"-.040" face width at 45 degrees depending on size of part, please advise preference and tolerance. Very small edge bevels with tight tolerances will add additional costs. 9 Choose the Proper Coating Metallic and Dielectric coatings available for the UV-VIS-NIR regions. &#; Provide the wavelength(s) of interest and % reflectivity required.
&#; Provide the intended AOI (angle of incidence) for the optical mirror. Custom coatings for a small quantity of parts may add additional expense. 10 Customization The following attributes can be added to customize your mirror. &#; Shapes: Provide drawing of custom shape.
&#; Holes and Notches: Provide location, size with tolerances.
&#; Custom Bevels: Provide location, depth and angle.
&#; Custom Coatings: Provide expected % of reflectivity over wavelength(s) of interest and AOI (angle of incidence). Additional features may add lead time and cost.
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