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Stepping Towards a Sustainable Future with Electric Vehicles
To support our ESG goals, SIW has transitioned to using electric vehicles within the factory, including Electric Trucks and Electric Forklifts. This initiative is part of our commitment to reducing environmental impact and building a sustainable future.
01-09-2022
SIW's adds another testing machine to improve the quality of the product before it reaches the end customer. Our lastest source is a Fatigue testing machine from Germany with- a testing capacity of 72 Pcs/Year- 500kN maximum load for diameters from 4 - 30 mm (*Available up size if change the grip)- frequency of120 Hz for PC Wire, PC StrandRebar for standard : LNEC E 452, ISO15630-3, prEN10138 etc.
08-06-2022
เมื่อพูดถึง “ไวร์เมช (Wire Mesh)” หลาย ๆ คนได้ยินชื่อนี้แล้ว อาจจะสงสัยว่ามันคืออะไร ซึ่งคนส่วนใหญ่จะเคยเห็นและรู้จักกันในภาพลักษณ์ที่เป็นตะแกรงเหล็ก แบบแผ่น หรือเป็นม้วนใหญ่ ๆ ตามไซต์งานก่อสร้างต่าง ๆ ไวร์เมช (Wire Mesh)หรือ ตะแกรงเหล็กไวร์เมช ที่เรามักได้ยินกันบ่อยๆนั้น รู้หรือไม่ว่ามันคืออะไร ตะแกรงเหล็กไวร์เมช (Wire Mesh) คือ ตะแกรงเหล็กกล้าเชื่อมติดเสริมคอนกรีต ผลิตจากลวดเหล็กรีดเย็น (Cold Drawn Steel Wire) นำมา อาร์คเชื่อมติดกันด้วยไฟฟ้าทำให้จุดทุกจุดหลอมละลายเป็นเนื้อเดียวกัน มีขนาดเส้นลวดขนาดต่างๆตั้งแต่ 4 มม. - 12 มม. และระยะห่างของเส้นลวดหรือที่นิยมเรียกว่า @ มีหลายขนาด เช่น 10*10 ซม / 15*15 ซม. / 20*20 ซม. / 25*25 ซม. / 30* 30 ซม. 40*40 ซม. / 50*50 ซม. สามารถตัดเป็นแผงได้ตามความต้องการโดยไม่เสียเศษเหล็ก จะใช้แทนการผูกเหล็กเส้นธรรมดาทั่วไปเป็นอย่างดี ทำให้ประหยัดเวลา ประหยัดเงิน และแรงงานได้มาก และมีความสม่ำเสมอของตะแกรงที่แน่นอน อีกทั้งยังช่วยยึดเกาะคอนกรีตไม่ให้แตกร้าวง่าย ไวร์เมช จึงเป็นที่นิยมใช้กันอย่างแพร่หลายในอุตสาหกรรมการก่อสร้างนั่นเอง
01-07-2025
What is "Fatigue"?Why Must Strong Structures Pass This Test?In engineering, a material being strong doesn’t always mean it’s durable.What’s more challenging than tensile strength is repeated loading, also known as Fatigue.What is Fatigue?Fatigue is the weakening of a material caused by repeated loading and unloading.For example, steel wires used in prestressed concrete, piles, or bridges may not break from a single force.But after tens or hundreds of thousands of repeated stresses, the material becomes "fatigued" — and can fail without warning.Examples of Fatigue-Related Failures:Bridge cables snapping after just a few years of useStructural collapse due to continuous vibrationsDamage invisible to the naked eyeWhy Perform Fatigue Testing at SIW-Testing Service Center?1. Internationally Certified StandardsSIW operates the only wire testing lab in Thailand certified for Fatigue Testing by NATA (Australia’s national lab accreditation body).This guarantees that all equipment and processes meet strict international standards.2. Real Testing — Beyond TheoryWe simulate repeated stress cycles to determine how many times your wire can withstand force before failure.You’ll receive detailed reports with clear graphs, backed by advanced tools and expert analysis.3. Supporting Nation-Level ConstructionSIW supports major infrastructure projects—expressways, bridges, rail systems—where high-performance wire is critical.Fatigue testing is a key step before the wire is ever used in the field.
25-06-2025
What are the applications of 7-wire PC Strand?1. LNG Tank – Liquefied Natural Gas Storage Tank2. Wind Tower – Wind Turbine Tower3. Nuclear Reactor Tank – Nuclear Reactor Containment Tank4. Bonded Post Tension Bridge – Bonded Post-Tensioning Bridge System5. Beam & Column – Beams and Columns6. Bridge Girder – Bridge Girders7. Plank Girder – Precast Floor Girders8. Concrete Pile – Concrete Piles9. Hollow Core Plank – Hollow Core Slabs10. Cement Silo – Cement Storage Silo11. Precast Segmentation Box – Precast Concrete Segment Box12. Water Treatment Tank – Water Treatment TankSIW's PC Strand has been tested and certified to meet global quality standards and certifications with sales in over 70 countries worldwide. Additionally, the product is environmentally conscious, using raw steel wire with a significant proportion of recycled materials.Diameter: 7.9 - 18 mmStandards: TIS 420-1997, AS/NZS 4672-2007, ASTM A416-2016, ASTM A416-2017, ASTM A886-2012, BS 5896-2012, prEN 10138-2012, JIS G 3536-2014, LNEC E 453-2020, XPA35-04503, MS 1138-4-2007, SNI 1154-2011, TSE 5680-1998, IS 14268-1995, GB/T 5224-2014, NBR 7483, UNE 36094-1997, SFS 1265-3, SS 212553-2013, NEN 3868, NBN I 10-003, UNI 7676-2016Contact us:Email: marketing@siw.co.thTel: (+66) 81-170-2571 hashtag#PCStrand
07-07-2025
A Closer Look at “Thai vs Japanese Structures” – Essential Knowledge for Earthquake-Resistant Design.🎁 Special Giveaway!Like + Share this post for a chance to win exciting prizes!📍 [Live Session]🕑 Starts at 2:00 PM | Tuesday, July 8, 2025Watch live on: Facebook: https://www.facebook.com/share/v/1Awmf5PaeK/ YouTube: https://youtube.com/live/P3cKiPsbqo8?feature=share Join the conversation and dive into construction standards with earthquake engineering expert:Professor Dr. Panuwat JoykladDepartment of Civil and Environmental Engineering,Faculty of Engineering, Srinakharinwirot University #SIW #EarthquakeResistantStructures
16-12-2024
Construction Trends to Watch in 2025 Modern construction trends focus not only on developing advanced and robust structures but also on integrating clean and alternative energy sources to promote sustainability and reduce environmental impacts. These trends mark a significant step toward a sustainable future. Sustainable Construction The concept of sustainable construction is gaining significant traction in the construction industry as it aligns with ESG principles, emphasizing environmental impact reduction and efficient resource use. Examples include: Utilizing environmentally friendly construction materials. Implementing carbon-reduction techniques in construction processes. Managing waste effectively by sorting and recycling materials. This approach not only mitigates environmental impacts but also enhances resource efficiency, ensuring that modern structures meet current needs without depleting future resources. Digital Technology in Construction Digital technologies are transforming workflows in the construction industry, making them more efficient and sustainable. Examples include: IoT (Internet of Things): Real-time data collection devices for monitoring safety on construction sites. AI (Artificial Intelligence): Data analysis tools to optimize processes, such as safety risk assessments. BIM (Building Information Modeling): Enables precise structural designs and project management, minimizing material waste and construction errors. Other advanced technologies, such as drones for 3D site surveys and AR/VR for virtual design, reduce costs, improve safety, and facilitate accurate decision-making. Clean Energy The adoption of clean energy in construction is accelerating, particularly in large-scale projects aiming to minimize environmental impacts. Examples include: Solar Roofs: Lower energy costs and reduce greenhouse gas emissions. Wind Energy: Harnessing wind power to decrease reliance on fossil fuel-based electricity. Using clean energy not only lessens environmental impacts but also reduces energy costs, creating sustainable structures to meet future needs efficiently. Prefabrication Prefabricated construction is another key trend. This involves designing and manufacturing components such as pre-made walls, floor panels, columns, and roofs in controlled factory environments before assembling them on-site. Prefabrication speeds up construction, reduces site complexities, and ensures quality. SIW’s Commitment to Construction Trends SIW prioritizes key construction trends, such as employing AI to enhance operational efficiency, utilizing clean energy like solar power, and supporting sustainable construction through recycled materials from EAF (Electric Arc Furnace) technology. SIW has also achieved Green Industry Level 4 certification and is working towards its Net Zero carbon emission goal by 2050, advancing sustainability in all dimensions of the construction industry.
30-09-2024
🔍 In an era where quality standards are the top priority in production, SIW Testing Service Center is here to help your business confidently overcome any concerns about product quality.** We offer comprehensive testing services using the latest and most advanced testing technologies.✅ Precision : With internationally certified testing equipment and a team of professionals, you can trust that the results are accurate and reliable.✅ Trustworthiness : Our team of experts, with over 30 years of experience, is ready to provide top-quality testing services that meet global standards.💡 Why choose us?Because we understand that product quality is the key to your business success. SIW is dedicated to providing a full range of quality testing services to meet the needs of every business.If you're looking for a reliable partner for product testing, “SIW Testing Service Center”is the answer you've been searching for.
We are relentless in our pursuit for excellence in product quality and innovation. We take pride in being able to anticipate your needs and provide tailored solutions for each of your requirements. We strive to exceed expectations.
