安達新産業 List of Products and Services

We will achieve optical characteristics that have not been realized before by periodically changing the refractive index. Conventional optical filters (optical thin films) consist of alternating layers of high-refractive-index and low-refractive-index films, which exhibit specific optical properties. In contrast, notch filters (band-stop filters) are deposition products designed to periodically change the refractive index in the thickness direction. A characteristic feature is that no optically unnecessary ripple occurs outside the stopband. We can achieve optical characteristics that were not possible with previous optical thin film processing. (Do you have such challenges?) ■ Is it possible to reflect only around the wavelength of 532nm? ■ I would like the unnecessary parts to be unable to transmit optically. ■ Notch filter? Band-stop filter? Rugate filter? ■ I have heard that the measurement difficulty after deposition is high; can you accommodate this?

• Other optical parts
• Color camera
• Sensors

Applications in the ultraviolet region are on the rise. At Itsuki Seiko Glass, we have developed filter glass substrates in the IHU series that have a transmission limit wavelength in the ultraviolet range and improved weather resistance to ultraviolet light. Recently, we have successfully deposited dielectric multilayer films to create bandpass filters in the ultraviolet region, as shown in the chart (measured data). (Are you facing these challenges?) ■ I want to transmit only specific wavelengths using aspheric lenses or lens arrays. ■ Is it possible to achieve pinpoint transmission at the UV-C wavelength of 254 nm? ■ Given the limited substrates and deposition materials, is anti-reflective coating feasible? ■ I've heard that measurement difficulty after film deposition is high; can you accommodate this? ■ Is it true that controlling the thickness in the UV region is very challenging due to its thinness? Based on our achievements in visible light, we can achieve high transmission rates in the ultraviolet wavelength range by controlling the deposition process. Additionally, by leveraging our ability to mold aspheric lenses and lens arrays in combination with our deposition technology, we can propose new applications.

• Other optical parts
• Sensors
• Other semiconductor manufacturing equipment

Adachi New Industry, as a special distributor for Momentive, offers various silicone products for electrical and electronic components. ◆◆What is a conformal coating? It is a thin film coating agent designed to protect electronic and printed circuit boards (PCBs). It protects substrates and components from mechanical and environmental corrosion, such as moisture, humidity, and corrosive substances. The application methods include dip, spray, and flow coating, with a typical thickness of around 10 to 200 micrometers. ◆◆Features 1) The most notable feature is that it is a "solvent-free product." 2) It cures quickly at room temperature. 3) It is a reduced product of low molecular siloxane. 4) It has excellent cold and heat resistance. 5) It is a product that can be stored at room temperature. 6) It shows good adhesion to various materials. 7) It has no corrosiveness to metals. 8) The application state can be easily checked under black light.

• Rubber
• Other polymer materials

The short pass filter selectively transmits light with wavelengths below a specific wavelength (800nm) while blocking light with longer wavelengths. This allows for effective handling of light in specific wavelength bands. (Do you have any of the following concerns?) ■ Is it possible to customize due to high wavelength dependence? ■ If light is incident at an angle, performance decreases; can it be controlled? ■ When blocking specific wavelengths, there may be a decrease in transmittance. ■ Can it cause chromatic aberration? ■ Is it difficult to control multiple wavelengths simultaneously?

• Other optical parts
• Color camera
• Sensors

Adachi New Industry, as a distributor for Momentive, offers various silicone solutions for thermal management. 【1】Thermal Gap Filler Exhibiting thermal conductivity, it contributes to the long-term reliability of devices that generate heat. It is liquid and can be automatically applied using a dispenser. This silicone is ideal for customers facing issues with stress relief and thermal control. 【2】Thermal Silicone Adhesive With excellent thermal conductivity and physical/chemical stability, it allows for thin film application, effectively reducing thermal resistance. It is optimal as a thermal interface adjacent to heating elements, heat spreaders, and heat sinks. 【3】Thermal Potting Compound Silicone sealants exhibit thermal conductivity and contribute to the long-term reliability of devices that generate heat. We offer a range of materials that cure into soft rubber or gel-like forms, including low to medium viscosity products suitable for potting applications. 【4】Thermal Silicone Grease Exhibiting thermal conductivity, it contributes to the long-term reliability of devices that generate heat. Its ability to be applied as a thin film significantly reduces thermal resistance.

• Rubber
• Other polymer materials

【1】Are you facing any of these issues? ◆ Is it possible to maintain a uniform reflectance for multiple wavelengths? ◆ Is it manageable if the reflectance decreases at specific wavelengths? ◆ Is color reproducibility achievable? ◆ Is there no problem with the stability of optical performance due to temperature changes or variations in environmental conditions? ◆ Is it possible to ship parts with a special shape? 【2】What is a dichroic mirror? A dichroic mirror is a mirror that reflects light of specific wavelengths while allowing other wavelengths to pass through. It consists of multiple layers, each with different optical properties. This characteristic allows for the effective separation, combination, or blocking of light at different wavelengths. 【3】Features of dichroic mirrors - Spectral separation Dichroic mirrors are used for spectral separation by selecting and reflecting or transmitting light of specific wavelengths from incident light. For example, they are used in optical devices that extract and detect light of specific wavelengths. - Light filtering They are used as filters to selectively remove light of specific wavelengths. This allows for the removal of unwanted light, enabling only the desired wavelengths to pass through.

• Other optical parts
• Distance measuring device
• Sensors

【1】Are you facing any of these issues? ◆ I want to address concerns about flares and ghosts. ◆ Is it possible to adjust the transmittance with a custom setting? ◆ I am looking for a filter for adjusting laser equipment. ◆ The shape is special; can it be shipped as a part? 【2】What is an ND filter? ND stands for "Neutral Density," which is a filter used to adjust the transmittance of light. It is attached to the lens to reduce the amount of light entering from outside. It is an essential optical component for controlling shutter speed and aperture in bright environments when taking photographs with cameras, in order to achieve the appropriate exposure. 【3】Design and customization available for your desired wavelength range At Adachi New Industries, we can design and coat (film) according to your desired wavelength range. The characteristic chart at the beginning shows a transmittance of 50%, but we can accommodate other transmittance levels as well. Please feel free to contact us. Additionally, we will design according to the characteristics of the substrate and your requirements, so please let us know your desired substrate type and wavelength range when you inquire.

• Other optical parts
• Distance measuring device
• Sensors

【1】Are you facing such issues? ◆Can you transmit light of specific wavelengths while reflecting others? ◆Can you create a filter to control RGB (red, green, blue) colors? ◆What are effective filters for fluorescence imaging? ◆Is customization possible for focusing on specific wavelength bands or removing unwanted wavelengths? ◆Is it possible to ship parts with special shapes? 【2】What is a dichroic filter? A dichroic filter is an optical filter that transmits light of specific wavelengths while reflecting light of other wavelengths. It transmits visible light of a specific wavelength and reflects its complementary color, allowing for color separation and color synthesis. Due to the absence of light loss from absorption and scattering, it enables high-efficiency color separation and synthesis, and is used in many optical devices such as cameras, spectrometers, laser applications, and optical microscopes. 【3】Features ・Wavelength selectivity: Transmits light of specific wavelength bands while reflecting others ・Use in optical devices: Used in optical devices such as cameras, spectrometers, and microscopes ・Fluorescence imaging: Utilized in biology and medicine for fluorescence imaging, allowing simultaneous detection of fluorescent substances at different wavelengths.

• Other optical parts
• Distance measuring device
• Sensors

The short pass filter selectively transmits light below a specific wavelength while blocking light of longer wavelengths. This allows for effective handling of light in a specific wavelength range. (Do you have any of the following concerns?) ■ Is it customizable due to its high wavelength dependence? ■ If light is incident at an angle, will performance decrease, and can it be controlled? ■ When blocking a specific wavelength, there may be a decrease in transmittance. ■ Can it cause chromatic aberration? ■ Is it difficult to control multiple wavelengths simultaneously?

• Other optical parts
• Color camera
• Sensors

【1】Are you facing any of these issues? ◆Is there a way to prevent reflection by matching the wavelength of CDs, DVDs, and Blu-rays? ◆Is there a method to improve visibility and achieve clear image quality? ◆Is it possible to design and fabricate custom solutions? ◆I want to increase light output to contribute to energy savings. ◆Can we design an anti-reflective coating (AR) that takes the angle of incidence into account? 【2】Features of Adachi New Industry's dual-wavelength AR (anti-reflective coating) 1) Multi-layer structure: The three-wavelength anti-reflective coating consists of multiple dielectric thin film layers. 2) Selective anti-reflection: It exhibits a high anti-reflection effect for specific wavelength ranges of light. Reflection of specific light is suppressed, improving the visibility of devices and displays. 3) Wide wavelength range compatibility: The three-wavelength anti-reflective coating is generally effective across a wide wavelength range, spanning the visible light region and near-infrared region. It can deliver high performance against light from various light sources. 4) Advances in thin film technology: It has been improved through advancements in thin film technology. With advanced manufacturing techniques and material selection, it is applied to compact devices and displays.

• Sensors
• Other optical parts
• lens

Are you facing any of these issues? ■ I want a mirror with a higher reflectivity than a standard aluminum mirror. ■ I want a durable mirror, but can it be designed with a dielectric? ■ Can you accommodate a wide range of incident angles? ■ The shape is special, but can it be shipped as a component? The aluminum enhanced reflective mirrors manufactured by Adachi Shin Sangyo Co., Ltd. can achieve excellent performance with minimal light loss during reflection and outstanding environmental durability by layering and controlling dielectrics. These mirrors can be customized to fit specific optical designs and are intended to have reflective characteristics suitable for specific wavelength ranges and applications.

• mirror
• Plastic processing machines (cutting and rolling)
• Sensors

Are you having trouble with something like this? - Is it possible to only allow a specific wavelength (633nm) to pass through? - I would like to expand the stop band because light other than the desired wavelength becomes noise. - Can you take into account the range of incident angles? - The shape is special; can it be shipped as a component? Optical bandpass filters are used in various optical applications and are essential for selectively extracting light of specific wavelengths. Passband: An optical bandpass filter allows a specific range of wavelengths to pass through. This range of wavelengths is called the passband and is typically defined by the center wavelength and the wavelength bandwidth. Wavelength selectivity: Optical bandpass filters can have very high wavelength selectivity, emphasizing light of specific wavelengths. This is important in many fields where precise wavelength selectivity is required. A 660nm bandpass filter, which selectively allows light in the specific wavelength range of 660nm to pass through, is commonly used in optical applications. This bandpass filter amplifies or allows light within the wavelength range around 660nm while blocking light of other wavelengths.

• Sensors
• Distance measuring device
• Image Processing Equipment

【1】Are you facing any of these issues? ◆ I want to prevent the temperature from rising due to near-infrared light emitted from the light source. ◆ The device itself is getting hot, and I want to do something about it. ◆ Is it possible to reflect visible light while allowing near-infrared (NIR) to pass through? ◆ Can the wavelength range of the mirror be customized? 【2】What is a cold mirror? A cold mirror is a filter that transmits near-infrared light while reflecting visible light. By forming a dielectric multilayer film, it can efficiently transmit thermal radiation without absorption, removing wavelengths that contribute to heat contained in the light source. Additionally, due to the excellent heat resistance and weather resistance of the dielectric multilayer film, it plays a role in stabilizing products that incorporate the filter. Typical applications include liquid crystal projectors, medical lighting fixtures, and dental mirrors that you may have seen on dental chairs. It has the performance of a mirror while featuring a special coating that allows near-infrared wavelengths to pass through to prevent temperature rise in the irradiated area.

• mirror
• Processing Contract

【1】Are you facing any of these issues? ◆ Can the degree of transmittance and reflectance be adjusted? ◆ Is there a way to modify it since the appearance changes with the angle? ◆ Is it possible to design and deposit even with dielectrics? ◆ Given the range of incident angles, can it be taken into consideration? ◆ The shape is special, but can it be shipped as a component? 【2】Features of the Adachi New Industry half mirror It is a functional half mirror that can arbitrarily split light into reflected and transmitted beams. By depositing dielectrics in multiple layers, it achieves extremely low absorption and minimal light loss, allowing for high-efficiency light splitting compared to using metal films. This product has a proven track record of being used in various devices, including FA sensors.

• Other optical parts
• Distance measuring device
• Sensors

【1】Are you facing any of these issues? ◆Is it possible to prevent reflection by matching the wavelength of CDs and DVDs? ◆Is there a way to improve visibility and achieve clear image quality? ◆Can we design and deposit custom solutions? ◆I want to increase light output to contribute to energy savings. ◆Can we design an anti-reflective coating (AR) that considers the angle of incidence? 【2】Features of Adachi New Industry's dual-wavelength AR (anti-reflective coating) 1) It is compatible with two wavelengths for CD (780nm) and DVD (650nm). We also offer custom designs that accommodate both DVD (650nm) and Blu-ray/HD-DVD (405nm). 2) It prevents light reflection from both sides of the substrate (thereby improving transmittance). Because it minimizes light loss, clear images can be obtained even in complex optical systems with long optical paths without degrading the incident light. 3) It can accommodate a variety of substrates, including glass and resin films. However, since our process is batch (sheet-type), the maximum size is □200mm.

• Sensors
• Other optical parts
• lens

We will start selling some optical thin film products (optical filter products) and patterned processing products as "standard stock items." We have responded to such requests! ◆ It's difficult to bear the cost of a whole batch when only a few pieces are needed for experiments... ◆ I want to see product development and performance tests quickly, so I need a few pieces at different levels... ◆ I just want to try it out for now... We often hear such voices through inquiries from our website. Even if custom-made filters are ultimately needed, I believe it is very difficult to define complete filter performance from the beginning.

• mirror
• Distance measuring device
• Sensors

Adachi New Industries does not simply perform film deposition. We aim to be a company that can provide comprehensive proposals, from thin film design to deposition processes and product shape processing, according to our customers' specifications. Do you have any of the following concerns? - Is it possible to change characteristics based on the performance of the light source or photodetector? - If characteristics change with angle, can simulations be performed? - I would like to see product characteristics with a small batch prototype first. - After starting mass production, can you provide efficient proposals? - Can you measure filters with unknown optical characteristics? 【Features】 ■ High transmittance and reflectance ■ Product stability ■ Film deposition on various substrates ■ Comprehensive coverage as a product ■ Small batch prototype support available (single item support possible) * For more details, please refer to the catalog or feel free to contact us.

• Sensors
• LED lighting
• Other optical parts

Infrared materials are incredibly fragile! (Weak against scratches, weak against water, weak against chemicals) This common knowledge can be overturned with our company's technology. 1) Excellent infrared transmission properties This is a filter that transmits infrared light through the formation of a multilayer film, utilizing interference effects to achieve excellent transmission rates from near-infrared to far-infrared regions. 2) Design and customization available for desired wavelength ranges We can design and deposit films tailored to the wavelength ranges requested by our customers. Please inform us of the substrate type and wavelength range when making inquiries, as we will design according to the characteristics of the substrate. 3) Measurement equipment: FT-IR available Rest assured that we will always include a measurement chart (spectral characteristics) upon shipment. 4) Component support available We can not only handle substrate procurement and film deposition but also cut to any desired shape and ship as components. However, we will need detailed drawings. 5) Cleanroom compliance Our work environment maintains the necessary cleanliness levels from film deposition to inspection, ensuring a cleanroom operation. We have a robust system in place to address minute film defects (such as foreign particles in the film).

• Surveillance Cameras
• Transport and handling robots
• Plastic processing machines (cutting and rolling)

Are you facing any of these issues? - Is it possible to only transmit specific wavelengths in the infrared range? - I would like a bandpass filter suitable for TOF sensors. - I heard that the wavelength used in LiDAR is 905nm; can you create a film for that? - Since light other than the desired wavelength will cause noise, I would like to widen the stop band. - Given the range of incident angles, can this be taken into account? - Is it possible to mount this on AGVs or OHTs? The 905nm bandpass filter is a filter that transmits specific wavelengths by utilizing light interference through the deposition of dielectric films. Based on our proven results in visible light, we can achieve sharp wavelength separation and high transmission rates in the infrared range (905nm) by controlling the deposition process, making it ideal for photoelectric sensors (such as TOF sensors) that require delicate light. We have standard stock items available, so please consider them. https://www.e-coating.jp/stock/cat/filmtype/bandpassfilter/

• Sensors
• Distance measuring device
• Image Processing Equipment

1) Are you facing issues like this? ■ I want to pass visible light and part of the infrared wavelength (850nm), is that possible? ■ I definitely want to cut out the blocking range that causes noise. ■ Since there is a range of incident angles, can that be taken into account? ■ The shape is special, but can it be shipped as a part? 2) Dual-band pass filter (multi-band pass filter) This is a filter designed to transmit light in two specific wavelength bands while blocking (stopping) other wavelength bands. In addition to regular IR cut, it has the function to selectively transmit only specific near-infrared wavelengths (such as 850nm, 905nm, 940nm, 1064nm). For example, it is ideal for applications that require monitoring during both day and night by transmitting specific visible light and specific near-infrared light. With 40 years of experience, we have achieved sharp wavelength separation and high transmission rates. Our unique control technology during film formation allows for high durability and reduced shift.

• Surveillance Cameras
• Other optical parts
• Sensors

Are you troubled by such issues? - It’s difficult to manage delivery times when ordering thin film processing and pattern processing separately. - I haven’t put it into a drawing, but could you provide some consultation? - I want to achieve fine wiring, but I would like advice on the deposition materials. - Can you accept orders for pattern processing alone? - Can you accommodate a line and space (L/S) of 10μm? ■ Microfabrication Technology We realize fine patterning through photolithography, etching, and metal masks. Depending on customer requirements, we select the best processing methods and resists. However, it is necessary to align conditions such as deposition materials, substrates, film thickness, and thin film stacking configurations. Please consult us regarding sub-micron or nanometer level patterns. ■ Small-scale prototyping is also possible. In manufacturing, the cycle of hypothesis and verification is an essential process. No matter how advanced simulation technology becomes, verification cannot be omitted. Therefore, at Adachi New Industry, we are happy to undertake prototyping for characteristic verification. Please contact us first.

• Analytical Equipment and Devices
• Other physicochemical equipment
• Circuit board design and manufacturing

Are you facing any of these issues? - It's difficult to manage delivery times when ordering thin film processing and pattern processing separately. - I haven't put it into a drawing, but can you provide consultation? - I want to achieve fine wiring, but I would like advice on film materials. - Can you accept just pattern processing? - Can you handle line and space (L/S) down to 10μm? 1) We realize fine pattern processing. We achieve fine patterning through photolithography, etching, and metal masks. We select the best processing method and resist according to the customer's requirements. 2) We can provide integrated production from substrate procurement to film formation. At Adachi New Industry, we can respond to custom orders consistently from substrate procurement to film processing, fine processing, and chip processing. It is also possible to cut into any shape and ship as components. However, we need detailed drawings, etc. 3) We accommodate cleanroom requirements. The working environment maintains the necessary cleanliness for each stage from film formation to inspection, and we have a thorough system in place to address minor film defects (such as foreign substances in the film).

• Surface treatment contract service

- Achieving both excellent transparency characteristics and static electricity prevention functions with ITO. We can apply anti-reflective coating that is most suitable for the wavelength range according to your desired specifications. Furthermore, we can also coat metals such as aluminum or nickel on top of the ITO film with good adhesion, making it suitable for sensors that require electrodes on the glass surface. Are you facing any of these issues? - Can you coat a film that allows both light and electricity to pass through simultaneously? - Is it possible to apply anti-reflective functionality? - Can pattern processing be done after coating with ITO? - Is it possible to focus on resistance value in the coating?

• Other optical parts
• Sensors
• Surveillance Cameras

Light reflects at the boundary surface with air, causing 4% reflection on one side and 8% reflection on both sides of the glass, resulting in a reflection of one's own image. An anti-reflective coating (AR = Anti Reflection Coating) is an optical thin film that utilizes the principle of interference by alternately depositing dielectrics with different refractive indices, reducing the reflectance of specific wavelengths and improving transmittance. Are you facing any of these issues? - Want to reduce reflections and ghosting in window materials? - Is there a way to improve visibility and achieve clearer image quality? - Looking to reduce internal reflections and prevent flare? - Want to increase light levels to contribute to energy savings? - Can we design an anti-reflective coating (AR) that takes the angle of incidence into account?

• Other optical parts
• lens
• Sensors

A UV-IR cut filter is a filter that cuts light in the ultraviolet and infrared regions while having a high transmission rate in the visible light region. In other words, it is an optical filter that simultaneously realizes the characteristics of both a UV cut filter and an IR cut filter. By placing it in front of CMOS sensors or CCD sensors, it serves multiple roles such as cutting noise light, providing heat protection against various light sources, and preventing degradation of liquid crystal components due to ultraviolet light. It is an excellent optical filter and optical thin film with multiple functions. Are you facing any of these issues? - Is it possible to cut both ultraviolet and near-infrared light? - Can a filter be made that allows visible light to pass while blocking IR and UV wavelengths? - I want to reduce noise light and increase sensor sensitivity. Can I consult about this? - Is it possible to customize the wavelength range that I want to transmit? - Is processing to chip size possible?

• Other optical parts
• Surveillance Cameras
• Sensors

Are you facing any of these issues? - I want to reduce reflection in the ultraviolet (UV-A) range. - I want to increase the transmittance at wavelengths that react with initiators, such as 365nm and 405nm. - I've heard that the UV range has a thin film thickness and is difficult to control... - I've heard that the substrates and film materials are limited; can you accommodate that? - I've heard that the measurement difficulty after film formation is high; can you handle that? ◆ We achieve excellent ultraviolet transmittance! By depositing multilayer dielectric films, we prevent light reflection from both sides of the substrate. Based on our achievements in visible light, we can also achieve high transmittance in the ultraviolet wavelength range by controlling the film formation process. However, the substrates that can be used for film formation are limited, so prior confirmation is necessary. By utilizing the characteristics of the substrates you will use and designing accordingly, we will realize the optimal filter.

• LED Module
• Sensors
• Ultraviolet irradiation equipment

What is a UV cut filter (ultraviolet cut filter)? It is a filter that cuts ultraviolet (UV) light while allowing visible light to pass through. In digital cameras, it is used to reduce chromatic aberration, and in liquid crystal projectors, it is used to prevent the degradation of liquid crystals and other optical components caused by the light from lamps (such as high-pressure mercury lamps), with the aim of cutting unnecessary ultraviolet light. Are you facing any of these issues? ◆ Is it possible to cut only the wavelength of ultraviolet light? ◆ Can a UV cut filter for projectors be coated? ◆ I would like to consult about the degradation of optical components. ◆ I would like to consult about filters that minimize the impact on the human body. ◆ Is it possible to custom adjust the wavelength range that I want to transmit?

• Sensors
• Other optical parts
• Lighting for image processing

It is used as a near-infrared cut filter that adversely affects CCD devices such as video cameras. The optical characteristics, such as the wavelength position with a transmittance of 50%, transmittance, and cut wavelength band, can be set arbitrarily. (Are you facing such challenges?) Is it possible to cut only the wavelength of near-infrared light? I want to allow visible light to pass while blocking IR wavelengths. I want to suppress light that causes noise and increase the sensitivity of the sensor. Can the wavelength range I want to transmit be custom adjusted? Is it possible to process it to chip size?

• Other optical parts
• Color camera
• Sensors

Aren't you troubled by things like this? - Can't you create a mirror that is not dependent on the angle of incidence? - I'm looking for a low-cost mirror, anyway. - I'm concerned about the reflectivity of just aluminum; is it possible to increase the reflectivity? - Is it possible to have a coating that is resistant to scratches and other damage? - The shape is special, but can it be shipped as a part? The mirrors produced by Adachi Shinsan Industry Co., Ltd. are characterized by their low dependence on the angle of incidence.

• mirror
• Plastic processing machines (cutting and rolling)
• Sensors

1) Are you facing such issues? ■ I want to prevent the temperature from rising due to near-infrared light emitted from the light source. ■ Projectors and lighting devices are getting too hot. ■ Is it possible to transmit visible light while reflecting near-infrared (NIR)? ■ Can the wavelength range of the mirror be customized? 2) What is a hot mirror? A hot mirror is used in projectors and lighting devices where temperature rise due to infrared radiation is a concern. By using a hot mirror, it is possible to suppress temperature rise and enable bright light source design. As for the coating, it has a special coating that transmits visible light and reflects more than 95% of near-infrared light (NIR). It is used in lighting equipment that employs halogen or xenon light sources, as well as in light source reflection mirrors for medical devices.

• mirror
• Sensors
• LED Module

Our company has been establishing vacuum deposition technology since the 1950s. A representative deposition metal is aluminum, which is deposited on the surface of glass substrates and plastic molded products, and further coated with oxide films such as SiO2 and TiO2 using electron beam deposition, being utilized as high-reflective mirrors like reflectors.

• Processing Contract
• Surface treatment contract service

Sputtering is a new surface treatment technology that applies ion engineering, characterized by the absence of pollution issues like those associated with resin plating, and the ability to plate chromium (Cr), which is difficult with vacuum deposition. It can also plate Cr on various engineering plastics other than ABS resin, marking the dawn of a new era in plastic surface treatment with this new technology. In addition to Cr, almost all metals can be used, and it can produce color tones similar to resin-plated Cr, among many other excellent features. As a result, the range of applications is broad, and sputtering products are expected to be widely used for decorative purposes in automobiles, consumer electronics, audio equipment, cosmetics, and more.

• Processing Contract
• Surface treatment contract service

Adachi New Industry Co., Ltd. is a company primarily engaged in the manufacturing and sales of chemical industrial products and synthetic resin materials, as well as the production and processing of optical thin films and functional films. Additionally, we are involved in cutting-edge technologies such as pattern processing using photolithography and etching techniques, as well as research and development. 【Business Activities】 (Surface Treatment Business) - Optical thin films, vacuum deposition, sputtering - Pattern processing (electrochemical analysis chips, comb-shaped electrodes, etc.) (Trading Business) - Sales of chemical industrial products (various synthetic resins, adhesives, silicones, hot melts, etc.) - Processing of resin molded products and mold processing - Sales of nanomaterials and nanoparticles *For more details, please refer to our catalog or feel free to contact us.

• Sensors
• Laser Components
• Surveillance Cameras