CHNSpec Technology （Zhejiang）Co.,Ltd

CHNSpec Dual-Base Ultra-Cleanrooms Successfully Operating for 5 Years: Building a Solid Quality Foundation for Precision Manufacturing with Ultra-Clean Standards

On the track of precision optics and spectroscopic technology, “micron-level” precision control often begins with the protection of “cleanroom-grade” production environments. In 2020, the dual-base ultra-cleanroom laboratories invested and built by ***the “Specialized, Sophisticated, Distinctive, and Innovative Little Giant” enterprise CHNSpec were officially put into operation. Today, this “clean fortress” rooted in the two major production workshops in Hangzhou and Taizhou has reached the important milestone of five years of successful operation. Over the past five years, with high-standard hardware configurations and comprehensive authoritative system certifications, it has built a solid barrier for the manufacturing of core products and has become a vivid testament to CHNSpec’s deep commitment to precision manufacturing and its unwavering dedication to quality. As a technology enterprise focused on the research, development, and production of precision optical inspection equipment, CHNSpec is well aware that for precision optical components, a single speck of dust or a slight temperature difference can become a “fatal hidden risk” affecting product performance. For this reason, the dual-base ultra-cleanroom laboratories were constructed with a total floor area exceeding 500 square meters. With a layout featuring “division of labor, collaboration, and full-domain controllability,” they achieve dual guarantees of production capacity and quality: the Hangzhou workshop focuses on the manufacturing of core components, controlling component precision from the source; the Taizhou workshop undertakes finished product assembly and testing, ensuring that final product quality meets standards. The laboratories strictly adhere to the Class 100,000 cleanroom standard, with no more than 100,000 airborne particles of 0.5 microns or larger per cubic meter, fundamentally avoiding contamination risks and safeguarding the precision and stability of every device delivered from the factory. To achieve precise environmental control, robust equipment is the key support. CHNSpec’s ultra-cleanrooms are fully equipped with TICA purification units, which integrate high-efficiency filtration, precise temperature control, and constant humidity regulation. These systems can stabilize workshop temperatures within 20–24°C and control relative humidity within the ** range of 45%–65%, providing constant and suitable environmental conditions for the processing, assembly, and calibration of precision components. At the same time, the laboratories have established a comprehensive environmental monitoring system, regularly inspecting key indicators such as particulate content, temperature, and humidity to ensure that the clean environment continuously meets standards. This ensures that “ultra-clean standards” are not merely a written commitment, but a rigid guideline running through the entire production process. Beyond hardware, system certification is another layer of assurance for the high-standard operation of the ultra-cleanrooms. At present, CHNSpec’s production centers have passed three major authoritative system certifications: ISO9001:2015 Quality Management System Certification, ISO14001:2015 Environmental Management System Certification, and ISO45001:2018 Occupational Health and Safety Management System Certification. This signifies that the operation of the ultra-cleanrooms not only meets the stringent cleanliness requirements of product manufacturing, but also achieves comprehensive standardized management in quality control, environmental compliance, and employee health and safety, vividly interpreting the company’s development philosophy of “quality first, responsibility foremost.” Core Configuration of CHNSpec Dual-Base Ultra-Cleanrooms   Configuration Dimension Detailed Information Layout and Scale Covering two major production workshops in Taizhou and Hangzhou, with a total floor area exceeding 500 square meters Cleanliness Level Class 100,000 constant temperature and humidity standard Core Equipment Purification units (high-efficiency filtration, precise temperature and humidity control) System Certifications ISO9001:2015 Quality Management System Certification ISO14001:2015 Environmental Management System Certification ISO45001:2018 Occupational Health and Safety Management System Certification Five years of dedicated cultivation, with no pause in progress. The stable operation of the dual-base ultra-cleanrooms is an important milestone for CHNSpec in the field of precision manufacturing, and a direct reflection of the company’s technical strength and pursuit of quality. Looking ahead, CHNSpec will continue to operate its ultra-cleanroom facilities to high standards, continuously optimize production processes and quality control systems, and provide global customers with more precise and reliable optical inspection products—steadily advancing on the path of precision manufacturing and writing a dual answer sheet of quality and innovation.  

CHNSpec Spectrophotometer Empower Military Camouflage Technology! Supporting the Army Artillery and Air Defense Academy in Achieving Precise Detection of Color-Changing Coatings

Recently, the research achievement titled “Analysis of the Color-Changing Performance of Adaptive Thermochromic Coatings and Its Influencing Factors”, jointly completed by the Army Artillery and Air Defense Academy together with Fudan University, PLA Unit 32139, and other institutions, was officially published in the journal Coatings and Protection (Issue No. 10, 2025). In this study, CHNSpec precision Spectrophotometer served as the core testing equipment, providing accurate data support throughout the entire process of coating color-change performance testing, and helping the research team achieve key breakthroughs in the field of dynamic camouflage technology.     Urgent Demand for Dynamic Camouflage, Color Detection Becomes the Technical Core     Traditional military camouflage equipment mostly adopts static technologies. Once the camouflage color is fixed, it cannot be adjusted. When facing seasonal changes or environmental variations, manual replacement is required, and improper timing can easily lead to exposure of military targets. Adaptive thermochromic coatings, as a core technological pathway for dynamic camouflage, can automatically adjust color according to environmental changes such as temperature and illumination, achieving real-time integration with the background. However, issues such as color-change stability, weather resistance, and aging have long been key bottlenecks in engineering applications. Precise quantitative detection of color parameters is the core step to solving this problem. The research team needed to accurately measure changes in brightness and chromaticity of the coatings under different conditions and analyze the evolution of color difference in order to clarify the influence mechanisms of key factors such as resin type, coating thickness, and light source wavelength. With its high resolution and high stability detection advantages, CHNSpec precision Spectrophotometer became the designated color detection equipment for this study. Precise Quantification + Full-Process Support, CHNSpec Instruments Solve Detection Challenges During several months of experimental research, CHNSpec precision Spectrophotometer undertook multi-dimensional color detection tasks: by measuring the colorimetric parameters (L, a, b values) before and after coating color change, accurately calculating the total color difference ΔE, and providing quantitative evidence for the selection of different film-forming resins and the optimization of the ratio between thermochromic microcapsules and resins; during accelerated experiments such as temperature cycling and photoaging, regularly recording coating color change data to intuitively present the influence patterns of temperature ranges (-30°C to 60°C), different wavelengths (254 nm, 302 nm, 365 nm, 395 nm), and light sources (xenon lamps) on color-changing performance.   In response to the special detection requirements of thermochromic coatings, CHNSpec Spectrophotometer, with their precise chromaticity measurement capability, successfully captured the key characteristic of **blue-green phase coloration exhibited by a 70 μm coating due to optical interference effects, and clearly quantified the significant destructive effect of the 254 nm ultraviolet band on coating aging, providing reliable data support for subsequent anti-aging strategy formulation. Experimental data showed that formulations optimized based on the detection results of this instrument achieved more than 500 reversible color-change cycles, maintaining excellent stability in environments ranging from -20°C to 40°C. Technological Breakthroughs Empower Practical Applications, Industry–Academia–Research Collaboration Shows Results Relying on the precise detection data provided by CHNSpec Spectrophotometer, the research team ultimately identified waterborne polyurethane and polyvinyl alcohol as the **film-forming resin system, determined 70 μm as the **coating thickness, and innovatively proposed an anti-aging strategy of “constructing a UV absorber protective layer on the coating surface.” Compared with the traditional approach of adding absorbers directly into the system, this solution significantly improved anti-aging performance, providing important technical references for formulation optimization and weather resistance design of color-changing coatings. This research achievement not only fills the gap in studies on the aging mechanisms of color-changing camouflage coatings, but also lays the foundation for the engineering application of dynamic camouflage technology in China. As a leading domestic provider of color detection solutions, CHNSpec, with its precision Spectrophotometer featuring stable performance and accurate measurement results, has been widely applied in high-end research fields such as military industry, coatings, and new materials, continuously providing reliable detection support for key technological innovations in China. In the future, CHNSpec will continue to deepen its research and development in color detection technologies, launching more high-precision detection equipment suitable for special scenarios and extreme environments, promoting industry–academia–research collaborative innovation, and injecting greater precision-driven momentum into technological breakthroughs in national defense science and technology, new materials, and related fields. (The full journal article can be accessed via https://www.cnki.net by searching the article title “Analysis of the Color-Changing Performance of Adaptive Thermochromic Coatings and Its Influencing Factors”.)

Good news! CHNSpec Selected as a Key Enterprise Research Institute

Recently, the Zhejiang Provincial Department of Economy and Information Technology released the “2025 Proposed List of Key Enterprise Research Institutes in Zhejiang Province,” and CHNSpec has successfully been selected after multiple rounds of rigorous evaluation, earning provincial-level recognition for its strong R&D capabilities and technological innovation strength. Since its establishment, CHNSpec has adhered to R&D innovation as its core strategy, continuously increasing scientific research investment, building a top-tier R&D team, tackling numerous key core technologies, forming achievements of independent intellectual property, and widely empowering the development of multiple sectors with its products and solutions. This selection will further accelerate the upgrading of the company’s R&D platform, boost the aggregation of innovation resources, and expand the space for technological innovation and achievement transformation. In the future, CHNSpec will take this recognition as an opportunity to leverage the provincial innovation platform, deepen its focus on core technologies, strengthen industry–academia–research collaboration, accelerate achievement transformation, and play a leading and demonstrative role. The company will continue driving high-quality development and contribute to technological innovation and industrial upgrading in Zhejiang Province.  

Why Does Your Fabric’s UPF Value Always Fluctuate? Uncover the “Invisible Killers” Affecting Test Results

In the production and testing of sun-protective textiles, “unstable fabric UPF values” is a frequent headache for enterprises: the same swatch might test as UPF52 in the morning and drop to 45 in the afternoon; a batch passes in the workshop’s in-house test but fails at a third-party lab; even different parts of the same sun-protective garment may show significant UPF variation. This “up-and-down” test result not only makes it hard for companies to judge true product quality, but may also lead to falsely rejecting good products or accepting poor ones, triggering consumer complaints and regulatory risk.   Many enterprises blame unstable UPF on fabric quality, but ignore several “invisible killers” hidden in the testing process—factors seemingly unrelated to the fabric itself but directly interfering with measurement accuracy. To make UPF values “stable and controllable,” you must root out these killers and use specialized equipment to guard against them. The CHNSpec UPF-660 Series Textile Ultraviolet Protection Performance Analyzer, with deep adaptation to test environments and operational details, effectively counters these interference factors—providing enterprises with stable, reliable UPF data.     I. Expose the “Invisible Killers”: Four Major Factors Disturbing Your UPF Test Results   In real testing scenarios, the following four “invisible killers” are core reasons for unstable fabric UPF values. Many enterprises fall into the trap of repeated testing but confusing data because they overlook these details:   1. Ambient Light Interference: “Invisible UV Light” Steals Precision   UPF testing is fundamentally about measuring how much of specific-wavelength UV passes through fabric, then calculating protection efficiency. Should external ultraviolet sources (sunlight, UV components of fluorescent lighting) infiltrate the environment, these “stray lights” may pass through the fabric or be misinterpreted by the detector—leading to an apparent increase in transmittance, and thus a falsely lower UPF value.   2. Sample Condition Variability: Details You Overlook That Cause Data Fluctuations   The sample’s physical state (flatness, stretch, humidity) exerts far more influence on UPF value than many foresee:   Insufficient flatness: If the fabric surface has wrinkles, UV will refract or reflect at folds, causing instability in detector readings; multiple tests at the same location may diverge. Overstretch: Elastic sun-protective fabrics, if overstretched during testing, enlarge fiber gaps, raise UV transmittance, and reduce UPF values. Humidity influence: Moisture absorption changes fiber structure; some UV absorbers may dissolve or degrade, reducing UV-blocking performance and lowering UPF.   3. Lack of Equipment Calibration: “Unmaintained Instrument” Becomes a Data Pollutant   Core components degrade over time: light source output weakens, detector sensitivity declines—these shifts cause systematic drift in test data. A weaker light source means less UV illuminates fabric; a less sensitive detector undercounts transmitted UV—both distort results.   4. Nonstandard Operation: “Human Error” Amplifies Data Differences   Even with stable equipment and controlled environment, poor procedural discipline can cause unstable UPF:   Arbitrary sampling location: Different zones (edges, center, warp vs weft) inherently differ in density or coating thickness. Random sampling without averaging protocols leads to unrepresentative data. Incorrect placement angle: Many instruments require exact sample alignment. Tilted or imperfect contact changes the UV path length and alters transmittance measurement. Premature data capture: In manual devices, reading too early (before signal stabilizes) causes variation between repeated trials.   When multiple killers compound, test results “whipsaw.” The CHNSpec UPF-660 Series counters these in four dimensions—“light shielding, sample stabilization, calibration, and procedure standardization”—ensuring data clarity.     II. CHNSpec UPF-660 Series: Four Anti-Interference Designs That Make UPF Tests “As Stable as a Rock”   The CHNSpec UPF-660 is more than a measuring instrument—it’s engineered to actively resist interference, guaranteeing every test yields stable, accurate results. Its four core design features map directly to the invisible killers above:   1. Fully Enclosed Light Path: Isolate Ambient Light, No More “Stray Light” Interference   The UPF-660 uses a fully enclosed metal optical path, internally treated with matte black surfaces to absorb over 99% of stray light. Its test chamber features a light-sealing door, blocking external UV (sunlight, lighting) when closed, so the detector only reads UV from the instrument source.   Even in a brightly lit workshop, with the door closed, ambient interference is negligible. Tests show that under direct sunlight conditions, the UPF-660’s variation on the same fabric is ±1, far outperforming ±8 for traditional open systems. This “anti-interference” capability means you don’t need a dedicated darkroom—stable data comes in normal production spaces.   2. Standardized Sample Handling: Fix Sample State, Minimize “Detail Bias”   To mitigate sample variability:   Custom sample fixture: Holds fabric flat and aligned, eliminating wrinkles or tilting. For elastic fabrics, tension can be adjusted per standard (e.g. no stretch, or 5% stretch). Humidity alert: Built-in temperature/humidity sensors monitor chamber RH. If humidity exceeds a threshold (e.g. RH > 65%), the system warns “humidity too high, dry sample before testing,” preventing moisture skewing results. Multi-point sampling: Software supports testing multiple zones (e.g. 5 points: center + four corners) and averages them, reducing random spatial variation.   With these measures, repeated tests on the same batch remain within ±2 UPF variation.   3. Intelligent Calibration System: Auto-Correct Drift, Keep Equipment “Always Precise”   Three built-in smart calibration mechanisms:   Automatic dark current correction: On startup, the instrument measures background current with no light and subtracts it in subsequent tests, ensuring a true zero baseline. Scheduled light source calibration reminders: The system monitors usage hours and prompts calibration when due. Enterprises can calibrate using standard reference samples in minutes without needing external technicians. Temperature compensation: Key components include temperature sensors and compensation circuits. Between –10°C and 40°C, the system adjusts illumination and detector gain to counter ambient effect. In practice, across 10°C–35°C,   UPF deviations remain ±1.5, significantly narrower than traditional ±8 swings.   This “auto calibration + temperature compensation” design keeps the instrument accurate over long-term use, avoiding drift from neglect.   4. Standardized Operation Workflow: SOP Enforcement Minimizes “Human Error”   To reduce procedural error:   SOP-driven testing: Supports custom workflows (sampling locations, fixation mode, repeat counts, read timing). Operators follow on-screen steps—no need to memorize complex protocols. Automated averaging & recordkeeping: The system can auto-run multiple successive measurements (e.g. 3), compute the average as the final result, and archive every raw reading, averaged value, and spectrum for traceability. Sampling location guide: UI includes schematic showing the 5 standard points (center + four corners) on the panel, ensuring consistent sampling.   With these controls, even new operators generate consistent results following the same procedure.     III. Beyond “stability,” the UPF-660 delivers value in quality control, cost saving, and market trust:   For enterprises, the CHNSpec UPF-660 Series not only solves the pain point of “unstable UPF values,” but also creates long-term value   1. Enhance QC precision: avoid loss from misclassification   Stable data lets you reliably distinguish truly compliant from marginal fabrics, preventing both false rejection of good batches and acceptance of substandard ones.   2. Lower calibration & maintenance cost: reduce downtime   Traditional equipment requires frequent external calibrations—1–2 days and high fees. The UPF-660’s smart calibration lets you self-calibrate, preserving uptime and saving substantial yearly calibration costs.   3. Boost market credibility: use “stable data” to back product claims   When you can present consistent, traceable UPF reports, you defend against consumer doubts or regulatory checks with solid evidence.   In the sun-protective textile field, “stable UPF values” are more than a sign of product quality—they’re the foundation of brand trust and differentiation. If your enterprise still struggles with fluctuating data and neglects test-level interference, you risk lagging in quality control. The CHNSpec UPF-660 Series, via its four anti-interference pillars—fully sealed light path, standardized sample handling, smart calibration, and SOP-driven operation—pushes UPF data to be “rock-stable.”   Choosing the OPF-660 is not just acquiring a test instrument—it’s adopting a full stable, reliable QC system for sun-protective fabrics. With it, you no longer worry about fluctuating UPF numbers, freeing focus for R&D and market strategies. Start with CHNSpec UPF-660 to make “stable, controllable UPF” your standard.

From “Passive Testing” to “Proactive Quality Control”: A Management Philosophy Upgrade Brought by One UPF Analyzer

In the production and R&D of sun-protective products (textiles, outdoor gear, etc.), UPF (Ultraviolet Protection Factor) testing has long been seen as an “end-stage process.” Enterprises typically send finished products to external laboratories for “passive testing.” This model not only restricts product efficiency and quality but also reflects a passive mindset in quality management. When a UPF analyzer is introduced into the enterprise, it brings not only an optimized testing process but also a fundamental shift in management philosophy—from “after-the-fact correction” to “full-process control.” The CHNSpec UPF Analyzer is the key driver of this upgrade, transforming the idea of “proactive quality control” into an actionable management practice.     I. “Passive Testing”: The Hidden Management Dilemma Within the Detection Process   “Passive testing” may appear to be a cost-saving compromise, but in essence, it exposes deeper managerial weaknesses—a mindset built around “waiting” and “compromising” that erodes competitiveness.   (1)From a risk management perspective, passive testing traps enterprises in a whirlpool of “unknown risks.” External lab testing cycles last from several days to weeks, during which enterprises cannot predict whether products meet UPF standards. If results show noncompliance, entire batches may need to be scrapped or reworked, resulting in huge cost losses. Worse still, if undetected products enter the market, substandard UV protection may trigger consumer complaints, regulatory penalties, and brand damage. This “produce first, test later” model essentially outsources risk control, stripping the enterprise of early warning capabilities.   (2)At the decision-making level, passive testing leads to a “delay trap” in management decisions. During R&D, teams must adjust fabric formulations and process parameters based on UPF data, but external testing delays force them into “blind trial and error.” They must either pause progress to wait for results or proceed by guesswork, often steering projects off course. In production, when quick specification adjustments are needed to meet market demand, long testing cycles cause missed opportunities. This “waiting for data before deciding” state reveals a lack of precision in managing time costs.   (3)From a team collaboration perspective, passive testing fosters “responsibility dispersion.” Because external institutions handle testing, R&D, production, and QC teams tend to work in silos: R&D believes “our job ends once samples are sent,” production thinks “just follow the process,” and QC relies on “external data only.” Under such conditions, no one takes full responsibility for UPF performance. Team initiative and synergy decline, and quality control becomes a mere formality.     II. “Proactive Quality Control”: The Core Upgrade of Management Philosophy   When an enterprise introduces internal UPF testing and shifts from “passive testing” to “proactive quality control,” it achieves three philosophical leaps: from “problem response” to “problem prevention,” from “external dependence” to “internal control,” and from “divided responsibility” to “shared accountability.”   (1)First leap: Risk management becomes proactive.   Proactive quality control integrates UPF testing throughout the entire process: in early R&D, raw materials and fabrics are immediately tested to filter out substandard materials; during production, semi-finished products are randomly tested to detect process deviations; before shipment, final verification ensures batch compliance. This “end-to-end testing” approach eliminates risks at the source, shifting management from “remedying problems” to “preventing them.”   (2)Second leap: Decision-making becomes data-driven.   Internal testing gives enterprises access to real-time, accurate UPF data—transforming results from “delayed reports” into “dynamic decision inputs.” R&D can instantly adjust formulations, avoiding wasted experimentation; production can fine-tune parameters to stabilize output; management can analyze data trends to predict market shifts and design targeted strategies. This “data-driven management” frees decision-making from reliance on intuition and external reports, making it more scientific and efficient.   (3)Third leap: Team management becomes accountability-based.   Proactive quality control distributes responsibility across every stage: R&D owns “raw material data,” production owns “process data,” and QC owns “final data.” Each data link forms part of a “responsibility chain,” compelling team members to focus on quality. The analyzer’s simplicity enables front-line workers to participate directly in testing, fostering a “quality-for-all” culture. The team shifts from “passive execution” to “active ownership,” turning management from “supervision” into “empowerment.”     III. CHNSpec UPF Analyzer: The Core Tool for Implementing “Proactive Quality Control”   Upgrading from “passive” to “proactive” management philosophy requires reliable tools. The CHNSpec UPF Analyzer, with its technological advantages, meets the operational needs of proactive quality control, becoming the enterprise’s reliable management ally.   (1) “Fast” and “Accurate”: Supporting Early Risk Control and Data-Driven Decisions   The CHNSpec UPF Analyzer features a dual-beam optical system and high-precision detectors. Each test takes only 30 seconds, and its margin of error is far below the GB/T18830-2009 standard. “Fast” means enterprises can perform real-time testing at every critical stage of R&D and production, without waiting for lab scheduling, controlling risk at the source. “Accurate” ensures that every dataset is decision-worthy. For instance, R&D teams developing new sun-protective fabrics can instantly obtain UPF, UVA, and UVB transmittance readings, quickly determining formula feasibility and avoiding wasted effort caused by delayed data.   (2) “Simple” and “Stable”: Enabling Team-Wide Quality Control and Continuous Operation   The CHNSpec UPF Analyzer features a 7-inch touchscreen with icon-based UI that trained staff can operate easily. This simplicity breaks the barrier of “testing must be done by specialists,” allowing production-line workers to engage in in-process testing and enabling “company-wide quality control.” The analyzer’s core components are made of military-grade materials and have passed rigorous high/low temperature, continuous operation, and vibration tests, ensuring stability even in harsh workshop conditions.   (3) “Customization”: Adapting to Each Enterprise’s Management Model   Since every company has different R&D processes, production scales, and QC standards, CHNSpec offers customized solutions. For R&D-oriented enterprises, the analyzer’s data export can be integrated with management systems for traceability and analytics. For large-scale manufacturers, batch testing modules can be added to improve line efficiency. For startups, CHNSpec provides one-stop packages including “equipment + training + QC process design,” enabling fast implementation of proactive quality control systems. This adaptability makes the CHNSpec UPF Analyzer more than a testing device—it becomes a tailored management tool.   A UPF analyzer’s true value goes far beyond “testing.”When an enterprise chooses the CHNSpec UPF Analyzer, it abandons the complacency of “passive testing” and embraces the clarity and control of “proactive quality management.” This transformation reflects a deeper evolution in management philosophy: from external reliance to internal empowerment, from problem response to risk prevention, and from divided responsibility to unified collaboration.   In today’s fiercely competitive sun-protection market, “proactive quality control” is no longer a “bonus,” but a “necessity” for survival and growth. With its speed, precision, simplicity, stability, and customization capabilities, the CHNSpec UPF Analyzer empowers enterprises to integrate proactive quality management into every stage of R&D and production—achieving a leap from “product compliance” to “management excellence.”

Break Free from External Laboratory Dependence — Take Control of Product Development with the CHNSpec UPF Analyzer

In today’s competitive market, product development efficiency and quality directly determine a company’s survival and growth. However, many enterprises still rely heavily on external laboratories for UPF (Ultraviolet Protection Factor) testing — a dependency that has increasingly become a bottleneck limiting innovation and speed. Taking back control of product testing has become a strategic necessity. The CHNSpec UPF Analyzer provides strong technical support for this transformation, enabling enterprises to achieve truly independent, real-time, and secure UPF testing.     I. Dependence on External Labs: Four Core Pain Points in Enterprise UPF Testing   Relying on external laboratories may appear to save on equipment investment, but it hides multiple operational risks. These challenges manifest across time, communication, data security, and R&D flexibility—and together, they slow down business growth.   1. Excessive time cost — losing market opportunities.   Once samples are sent for external testing, enterprises must queue for lab availability, with turnaround times ranging from several days to months. In fast-moving markets, a competitive sun-protection product may miss its critical launch window due to testing delays—allowing competitors to seize the market.   2. High communication cost — rework risk from misalignment.   Frequent back-and-forth communication with labs over testing parameters, material characteristics, or data formats increases miscommunication risks. A single misunderstanding can invalidate results, requiring retesting and further delaying development.   3. Data security risks — exposure of trade secrets.   UPF testing data reflects the core of a company’s R&D—formulas, additives, and process parameters. Even with confidentiality agreements, transferring sensitive samples or reports to third parties introduces potential data leaks, threatening competitive security.   4. Limited R&D agility — slower iteration cycles.   When relying on external labs, enterprises cannot perform immediate testing during iterative design. Each modification requires new scheduling and delays, preventing rapid optimization based on real-time results—causing R&D to fall behind the market pace.     II. Gaining Testing Autonomy: The Key to Breaking Development Bottlenecks   Bringing UPF testing in-house allows enterprises to reclaim full control over development. With internal testing capabilities, companies gain clear advantages in efficiency, cost, accuracy, and data security.   1. Efficiency — accelerate development cycles.   Owning a dedicated UPF analyzer enables instant testing aligned with R&D progress. Real-time data supports rapid decision-making, reducing the testing bottleneck and speeding new products to market.   2. Cost — reduce long-term expenditures.   While initial equipment investment is required, the savings from eliminating repeated lab fees (hundreds to thousands per test) quickly offset costs. Additionally, avoiding rework from communication errors further lowers overall expenses.   3. R&D accuracy and flexibility — optimize performance faster.   In-house UPF data allows teams to identify issues immediately and refine formulations dynamically, resulting in more efficient innovation and higher-performing sun-protection fabrics.   4. Data security — safeguard proprietary technology.   By keeping all test data within the enterprise environment, risks of external exposure are eliminated. Sensitive parameters and formulations remain fully protected, ensuring long-term competitive security.     III. CHNSpec UPF Analyzer — The Core Equipment for Testing Autonomy   To eliminate reliance on external labs, enterprises need a high-performance, user-friendly, and stable UPF analyzer. As a pioneer in optical testing technology, CHNSpec developed its UPF Analyzer to meet this need, providing excellence in accuracy, usability, durability, and customization.   1.High Precision + Wide Range: Meeting Diverse R&D Needs   The CHNSpec UPF Analyzer uses a dual-beam optical system and imported high-precision detectors to measure UPF values and UVA/UVB transmittance of textiles. Its accuracy exceeds the GB/T18830-2009 industry standard, ensuring reliable data for both product development and quality verification.   It supports multiple material types, enabling comprehensive testing across fabric categories without needing external assistance.   2. Easy Operation + High Efficiency: Reducing Labor and Training Costs   Designed for enterprise teams without specialized technicians, the analyzer features a 7-inch touchscreen with intuitive icon-based UI. Operators can learn the workflow within 1–2 hours, with no need for professional lab personnel.   Testing is quick and automated: secure the sample, press start, and receive results in 30 seconds. Reports with key UPF and UVA/UVB data are automatically generated in PDF format—ready for R&D or QA documentation—greatly improving efficiency.   3. High Stability + Durability: Ensuring Long-Term Continuous Testing   Built for industrial environments, CHNSpec UPF Analyzer components are of military-grade quality, rigorously tested for temperature variation, vibration, and continuous operation.   The device maintains stability even under challenging workshop conditions and comes with a 1-year warranty and lifetime maintenance, ensuring reliability for continuous enterprise use.   4.Customization + Full-Service Support: Tailored to Enterprise R&D Needs   CHNSpec’s professional team provides customized configurations based on different enterprise testing workflows—whether for high-frequency production checks or advanced R&D validation.   Regular software updates ensure compliance with the latest testing standards and maintain long-term compatibility with regulatory frameworks—eliminating concerns over equipment obsolescence.   In today’s competitive sun-protection textile market, speed, quality, cost efficiency, and data security define corporate competitiveness. Moving away from external laboratory dependence and adopting in-house UPF testing marks a critical step toward these goals.   The CHNSpec UPF Analyzer empowers enterprises with precision performance, user-friendly operation, stable reliability, and tailored service—establishing a robust internal testing system. With CHNSpec, companies can reclaim control over their R&D, accelerate innovation, reduce costs, and deliver high-quality, compliant products—gaining a decisive edge in the global market.

CHNSpec THC Series Haze Meters: Precision Optical Detection Empowering Material Quality Upgrades

In the field of material optical performance testing, transmittance and haze are key indicators for evaluating the quality of transparent and translucent materials. CHNSpec (Zhejiang) Co., Ltd., with its profound technical expertise and continuous innovation, has launched the THC-07 Transmittance and Haze Meter and THC-08 Color Haze Meter, providing comprehensive and reliable testing solutions for the quality control and R&D of plastics, glass, films, liquids, and other materials.     I. Dual Instruments, Comprehensive Optical Parameter Coverage   The THC-07 Transmittance and Haze Meter focuses on the detection of fundamental optical properties of materials. It can accurately measure haze, transmittance, clarity, and other key parameters, and display transmittance spectral curves within the wavelength range of 400–700 nm. The instrument features a dual-aperture design (21 mm / 7 mm) and an open measurement area, supporting both horizontal and vertical measurement modes, making it suitable for quality evaluation of most transparent and translucent materials.   The THC-08 Color Haze Meter is a comprehensive upgrade based on the THC-07. In addition to haze and transmittance, it integrates multiple color parameters such as color difference, turbidity, platinum-cobalt color, yellowness, and whiteness. It supports various color spaces and color difference formulas, enabling measurement of multiple color parameters such as CIELab, LCh, Luv, and XYZ, meeting users’ dual testing needs for both color and optical performance of materials.     II. Core Advantages: Technological Leadership and Operational Ease       1. Dual-Standard Support, Broad Applicability   The THC series supports both ASTM and ISO international standards, allowing compliance with different regional and industrial testing requirements without replacing accessories or using compensation ports. The instruments come with multiple built-in light source modes and observer angles, ensuring international compatibility of testing results.   2. Full-Spectrum LED Light Source for Accurate Data   Equipped with a full-spectrum LED light source and high-precision spectral sensor, the THC series ensures highly accurate and reliable measurements. The haze repeatability is ≤0.03, transmittance repeatability ≤0.03, and color difference repeatability ≤0.03 — performance comparable to leading imported brands, providing reliable assurance for quality control.   3. 7-Inch Touch Screen for Smooth Interaction   Featuring a 7-inch IPS full-view touch screen, the interface is intuitive and user-friendly, making data clearly visible at a glance. The system is easy to operate without the need for complex training, significantly reducing personnel training costs.   4. Dual-Aperture Design for Enhanced Sample Adaptability   With 21 mm and 7 mm dual measurement apertures, users can flexibly select based on sample size. Even samples as small as 7 mm can be accurately measured, meeting diverse detection needs in research and production environments.   5. Open Measurement Area for Multiple Sample Types   The innovative open measurement area design allows the instrument to be used in both horizontal and vertical orientations. Combined with a dedicated positioning bracket, it easily accommodates sheets, films, liquids, and even large-sized materials.   6. Professional PC Software for Worry-Free Data Management   Equipped with powerful PC software, the THC series can be connected to a computer via USB for online measurement, data export, and report printing. It supports long-term data tracking and analysis, helping enterprises establish a complete quality management system.     III. Professional Assurance: Metrology Certification You Can Trust   The THC series strictly adheres to national metrology standards, ensuring that parameters such as haze, transmittance, and color difference can pass testing and verification by national metrology institutes, guaranteeing authority and credibility. The products comply with multiple national and industrial standards, including:   JJF1303-2011: Calibration Specification for Haze Meters GB/T 2410-2008: Determination of the Transmittance and Haze of Transparent Plastics GB/T 3978-2008: Standard Illuminants and Geometric Conditions GB/T 36142-2018: Methods for Measuring the Color and Color Difference of Architectural Glass (THC-08) JJG595-2002: Verification Regulation for Color Difference Meters (THC-08) GB/T 7921-2008: Uniform Color Space and Color Difference Formula (THC-08)     IV. Wide Application Fields: Empowering Industry Upgrades   With its exceptional performance and reliable precision, the CHNSpec THC Series Haze Meters have been widely adopted across multiple industries:   1. Plastics Industry   Used for testing the transmittance and haze of packaging films, automotive lamp covers, optical lenses, and other products to ensure that optical performance meets design specifications.   2. Glass Manufacturing Industry   Applied in the quality control of architectural glass, automotive glass, and appliance panels, supporting both color and haze testing requirements.   3. Film and Display Industry   Provides accurate optical parameter measurements for optical films, polarizers, and display modules, contributing to product performance improvement.   4. Liquid Testing Field   Used for evaluating the color and transparency of oils, pharmaceuticals, and beverages, ensuring product quality consistency.   5. Research Institutes and Universities   Provides reliable detection methods for optical property research, new product development, and teaching experiments, supporting technological innovation and talent cultivation.   CHNSpec (Zhejiang) Co., Ltd. is a leading enterprise in China’s color measurement industry, specializing in the R&D and manufacturing of optical inspection instruments such as colorimeters, spectrophotometers, haze meters, and gloss meters. The company brings together high-level R&D talent from Zhejiang University and the China Jiliang University, holds multiple domestic and international patents and technical achievements, and maintains close cooperation with several authoritative metrology institutions. CHNSpec is committed to providing customers with high-precision, high-performance testing instruments and comprehensive solutions.

DS-87CG Series 45/0 Spectrophotometer: Redefining Precision and Efficiency in Color Measurement

In the production chains of industries such as plastics, coatings, textiles, and printing, the consistency of color and gloss has always been the core challenge of quality control — traditional measurement requires two instruments and two separate operations, resulting in low efficiency; data deviation across multiple production lines makes global color consistency difficult to achieve; inaccurate measurement of special materials and high replacement costs due to short equipment lifespan add to the burden. All these pain points will be addressed by the DS-87CG Series 45/0 Spectrophotometer. As an innovative device that integrates “color + gloss” dual measurement, it provides enterprises with a full-link color management solution from the laboratory to the production line, and from domestic operations to global delivery, through six core advantages.     1. One Measurement Unlocks Dual Data of “Color + Gloss”   The visual perception of product texture has always been a synergy of color and gloss. In traditional solutions, inspectors need to use a colorimeter first, then switch to a gloss meter — time-consuming and prone to data mismatch caused by position deviation.   DS-87CG innovatively integrates high-precision color difference measurement with 60° gloss analysis into a single device. With just one click, its 3.5-inch full-color screen instantly displays color parameters such as Lab and LCh, along with GU gloss data. Whether testing the surface texture of plastic parts or the color saturation of printed materials, there is no need to switch devices — quality control efficiency is instantly doubled, providing a complete and intuitive presentation of both “color” and “gloss.”   2. Extreme Inter-Instrument Consistency Ensures Global Color Uniformity   For enterprises with multiple production lines or cross-regional supply chains, “same standard, different data” can be a fatal flaw — color differences between laboratory formulations and workshop production, inconsistent test results between headquarters and branches, or customer rejection due to equipment discrepancies.   DS-87CG, through advanced manufacturing processes and per-unit calibration, strictly controls inter-instrument color deviation within ΔEab ≤ 0.2 (superior to DS-86C/86CG’s ΔEab ≤ 0.25). From R&D formulation to mass production and global customer acceptance, color standards remain perfectly consistent. It completely eliminates “global supply chain color communication barriers,” ensuring product quality withstands scrutiny in every context.   3. Ten-Million-Measurement Lifespan — A Device That’s a Long-Term Investment   The core light source is the “heart” of a spectrophotometer; its lifespan directly determines operational cost and stability. Typical devices on the market have lifespans of only hundreds of thousands of measurements, leading to frequent replacements, rising costs, and potential data drift due to light source decay.   DS-87CG adopts a full-spectrum balanced LED light source, ensuring both stability and accuracy while achieving an unprecedented 10 million measurement lifespan (equivalent to 10 years of stable use). Assuming 100 daily measurements, one device can operate continuously for 27 years, drastically reducing replacement frequency and ownership cost. Choosing DS-87CG isn’t just buying an instrument — it’s a long-term investment in quality control excellence.   4. 360–740nm Full-Spectrum Analysis — No Color Detail Left Behind   Conventional spectrophotometers, limited by wavelength range, often struggle with materials containing fluorescent or whitening agents (such as textiles, skincare products, or fluorescent plastics), resulting in “metamerism” — colors that appear identical to the eye but differ in data.   DS-87CG covers the complete visible spectrum from 360–740 nm and includes independent UV light source control. It can accurately capture true color across both standard and special materials. For instance, when testing paper with optical brighteners, its UV light source restores true fluorescent color values, preventing misjudgments such as “visually qualified, data unqualified,” ensuring each measurement reflects true visual perception.   5. Superior Sample Adaptability — One Device for All Industries   Different industries feature vastly different sample forms: plastics (solid), coatings (liquid), food (powder), cosmetics (paste). Traditional instruments often require multiple attachments or even multiple devices to accommodate this variety. DS-87CG, with an optimized optical structure and extensive accessory support, easily handles all forms of samples — solids (plastic sheets, metal parts), liquids (coatings, inks), powders (flour, pigment powder), and pastes (creams, ointments).   From flour whiteness testing in the food industry to color control of ointments in pharmaceuticals and color fastness analysis in textiles, a single DS-87CG achieves true “one device, multi-application,” saving enterprises equipment and storage costs.   6. International-Level Precision — Import Quality at a Domestic Price   Enterprises have long faced a dilemma: domestic instruments are affordable but lack precision, while imported instruments are accurate but prohibitively expensive. DS-87CG breaks this trade-off. Through rigorous benchmark testing, it achieves industry-leading metrics: measurement repeatability of ΔE*ab ≤ 0.02, supports over ten color indices including CIE-Lab and CIE-Luv, complies with international standards such as CIE No.15 and ISO7724-1, and ensures first-class metrology certification.   Without paying an “import premium,” enterprises gain equivalent precision and stability. DS-87CG shatters the bias that “domestic = low precision,” enabling even small and medium-sized enterprises to upgrade quality control at optimal cost.