SustainabilityNews

SIW's adds another testing machine

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 Strand

Rebar for standard : LNEC E 452, ISO15630-3, prEN10138 etc.

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Concrete Roads vs. Asphalt Roads: Which is Better?

04-12-2024

Concrete Roads vs. Asphalt Roads: Which is Better? Selecting the right material for road construction is a critical decision that influences performance, longevity, and overall cost. Concrete and asphalt are the two primary options, each with distinct advantages and limitations. The key is to choose the material that best aligns with the intended application and environmental conditions.   Asphalt Roads Asphalt roads are known for their flexibility and smooth surface, offering a more comfortable driving experience. However, they are vulnerable to weather conditions, such as extreme heat or heavy rain, which accelerates deterioration. Typically, asphalt roads have an average lifespan of 10–15 years, making them suitable for general use and smaller projects. Advantages • Lower initial construction costs. • Quick construction time; roads can be used immediately after the asphalt is laid. • Simple and fast maintenance using resurfacing techniques (re-paving the road surface). Disadvantages • Faster degradation compared to concrete, particularly in areas with high temperatures or frequent flooding. • High maintenance costs due to the need for frequent repairs.   Concrete Roads Concrete roads consist of a mixture of cement, stone, sand, and reinforcement materials such as wire mesh, which enhance strength and durability. With an average lifespan of 20–40 years, concrete roads are ideal for large-scale projects and infrastructure that must withstand heavy loads, such as highways, bridges, and industrial zones. Advantages • Superior strength and durability, capable of handling heavy loads effectively. • Stable and smooth surface, with reduced risk of subsidence over time. • Long-term cost-efficiency due to lower maintenance requirements. Disadvantages • Higher initial construction costs. • Longer construction times, as the concrete must cure and gain strength before use. • Complex and costly maintenance processes for repairs.   Deciding between concrete and asphalt roads requires careful consideration of factors such as usage, budget, and environmental conditions. By aligning these factors with the project’s objectives, you can ensure the road meets its intended purpose effectively. Siam Industrial Wire offers premium-quality wire mesh steel grids tailored for concrete road and flooring applications. These products are manufactured in compliance with Thai Industrial Standards (TIS) and certified by the Thai Industrial Standards Institute (TISI). The offerings include TIS 737 for standard applications and TIS 926 for cane and rubber-specific uses, ensuring superior quality and performance. Wire Mesh : https://www.siw.co.th/th/product-detail/wire-mesh

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Customer Voice - Kingston Heavy Industrial Co., Ltd.,

13-11-2024

A MESSAGE OF TRUST AND PARTNERSHIP!     Lisa L.C. Wang, President of Kingston Heavy Industrial Co., Ltd., recognizes SIW's exceptional quality and strong reputation built over 20+ years in Taiwan's infrastructure sector. Here's to more milestones together!     "SIW's product quality has earned a strong reputation in Taiwan's infrastructure for over 20 years, and we wish you continued success in overcoming challenges, fostering partnerships, and achieving growth." Lisa L.C. Wang President - Kingston Heavy Industrial Co., Ltd.

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Gen Z: Driving Change Toward Unlimited Growth

15-11-2024

"Gen Z: Driving Change Toward Unlimited Growth"      Meet Chayangkoon Arunchaiwat from the Country Sales team (Indian Subcontinent), sharing the fresh perspective of a new generation driving organization’s success.      "Since I have been one of the member of SIW, I can feel that the work environment right here is comfy and flexible. Some fresh ideas can be generated by younger generation like me. Moreover, teamwork is also a milestone to achieve our goals." Chayangkoon Arunchaiwat Country Sales - Indian Subcontinent

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What is Precast Concrete?

17-02-2023

     In the construction of housing estates or condos at present, most of them have begun to use precast concrete widely instead of the traditional brick wall construction. Especially in the construction of large villages that require a large number of similar houses. Because it can help save resource costs in many aspects, such as time and manpower. It can also control standards better than brick construction. and today, Siam Steel Wire We will take a closer look at why precast concrete walls are popular among builders. And what should the residents do when using a house built from precast concrete?   What is Precast Concrete? Precast Concrete is a part of the wall of a house or condo that will be precast in the factory before being moved for installation at the job site. This is different from the plastered brick wall that will be cast on site by the contractor. Precast Concrete has two main components, which are concrete texture and reinforcement with Wire Mesh or Cold Drawn Wire.      Advantages of Precast Concrete1. Save construction time because the precast concrete wall can be cast and prepared in the factory during foundation assembly and then welded and assembled on-site.Unlike brick walls, construction only begins after the foundation has been assembled.2. Quality meets the same standard Because there is a casting from the factory, it does not depend on the skill of the mechanic or the weather at the job site.3. It requires much less labor than brick walls. because every part has been successfully cast from the factory and therefore can be placed in the house.4. High strength, so it can be used instead of columns or beams to support weight. because the structure consists of concrete and is also reinforced with Wire Mesh or Cold Drawn   In addition, Siam Industrial Wire sells wire mesh and cold drawn from 4 mm to 12 mm, ready for use in precast concrete wall assembly, and it has met global standards, so you can be confident in its strength.  more details: https://www.siw.co.th/en/product-detail/wire-mesh   Caution1. Precast Concrete will not encounter cracks because the parts are cast in the same piece. But there may be a problem of water leakage along the edge of the wall joint if the connection is not tight enough.2. Wall drilling must be advised by engineers if it is supporting the weight of the structure.

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ทำไมตะแกรง Wire Mesh ต้องสยามลวดเท่านั้น

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

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คลายข้อสงสัย? วิธีทาบตะแกรงเหล็กไวร์เมช

30-05-2023

ในการก่อสร้างอาคารในปัจจุบัน เราสามารถเห็นการใช้งานตะแกรงเหล็กไวร์เมช มาทดแทนการใช้เหล็กเส้นในส่วนของเหล็กเสริมล่าง ได้มากขึ้นเรื่อยๆ เช่น พื้นโรงงาน , พื้น Post-tension และถนนคอนกรีต เป็นต้นฯ เนื่องจากตะแกรงเหล็กไวร์เมช สามารถประหยัดเวลาและต้นทุนได้มากกว่าเป็นไหนๆ แต่ในการหันมาใช้ตะแกรงเหล็กไวร์เมช แทนเหล็กผูกก็อาจมีวิธีการใช้งานและหลักการคำนวณบางอย่างที่แตกต่างกัน หนึ่งในเรื่องที่หลายคนสงสัยมากคือ “การต่อทาบตะแกรงเหล็กไวร์เมช” ควรมีระยะเท่าไหร่จึงจะเหมาะสมและไม่ก่อให้เกิดปัญหาในภายหลัง   การต่อทาบตะแกรงเหล็กไวร์เมช ตะแกรงเหล็กที่ใช้เป็นเหล็กเสริมในแผ่นพื้น จะต้องมีการต่อทาบ ดังนี้ 1. ควรหลีกเลี่ยงการต่อลวดโดยใช้วิธีทาบ ณ บริเวณที่มีหน่วยแรงสูงสุด (ตำแหน่งที่ลวดพื้นรับแรงเกินกว่าครึ่งของหน่วยแรงที่ยอมให้) แต่ถ้าจำเป็นจะต้องใช้การต่อวิธีนี้ ต้องมีระยะทาบของตะแกรงไม่น้อยกว่าระยะเรียงของเส้นลวดบวกเพิ่มอีก 5 เซนติเมตร 2. การต่อลวดตะแกรงที่รับแรงไม่เกินครึ่งหนึ่งของหน่วยแรงที่ยอมให้จะต้องมีระยะทาบไม่น้อยกว่า 5 เซนติเมตร อ้างอิง: มาตรฐานสำหรับอาคารคอนกรีตเสริมเหล็กโดยวิธีหน่วยแรงใช้งาน (วสท. 011007-19)   และทางสยามลวดเหล็กฯ ก็มีตะแกรงเหล็ก ไวร์เมช ที่ผ่านมาตรฐาน มอก. 737 ตอบโจทย์เรื่องคุณภาพ, ความปลอดภัย, รวดเร็ว และยังมีบริการการออกแบบ CAD, การจัดสรรงบประมาณ, แถมมีวิศวกรให้คำปรึกษาฟรี!! ดูรายละเอียดสินค้าเพิ่มเติม: https://www.siw.co.th/th/product-detail/wire-mesh

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What is Curing Concrete?

01-05-2023

To achieve continuous development of the compressive strength of concrete, it is necessary to fully hydrate the cement, which is accomplished through curing. Curing is a method that involves controlling and preventing the evaporation of residual water from the reaction.   The objective of curing concrete is twofold: 1) to attain maximum strength and durability in the resulting concrete. 2) to regulate temperature and minimize water evaporation to avoid cracking.   The following are typical techniques for curing concrete: 1) Regularly spraying water to keep the concrete moist. 2) Applying a plastic cover after spraying water to prevent water from evaporating. 3) Using sacks soaked in water to cover the concrete. 4) Applying a chemical coating to the surface of the concrete.   The Siam Industrial Wire (SIW) provides PC WIRE TIS. 95-2540 and PC STRAND TIS. 420-2540, which are the primary components of prestressed concrete production and are acknowledged in over 50 countries worldwide. SIW offers after-sales services to customers, including free calibration of wire pulling machines at their site to ensure that customers can use prestressed wire with confidence.   PC Wire: https://www.siw.co.th/th/product-detail/pc-wire PC Strand: https://www.siw.co.th/th/product-detail/pc-strand

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How deep should the pile be drilled to ensure safety?

05-07-2023

How deep should the pile be drilled to ensure safety?Piles are an essential component used to support and transfer the weight and load of a building to the ground. The load transfer of a pile occurs through the frictional resistance between the pile surface and the surrounding soil or through direct load transfer to the underlying soil or bedrock. The main purpose of using piles is to prevent the building or structure from settling or sinking into the ground. For small-scale buildings, the piles used are generally shorter in length and fewer in number. However, larger buildings may require a greater number of piles or longer piles to transfer the load to deeper layers of soil and bear a higher load capacity. If the pile extends to the level of hard soil, it can directly transfer the load from the building to the hard soil layer. How do piles bear the load?Piles bear the load through two main types of forces: "skin friction" and "end bearing." 1. Skin Friction: This force is generated by the frictional resistance between the pile surface and the surrounding soil. The magnitude of this force depends on the type of soil (each soil type has different skin friction properties) and the characteristics of the pile surface. 2. End Bearing: This force occurs at the pile tip, where the pile rests on a firm soil layer. The magnitude of this force depends on the type of soil, such as the presence of voids between soil particles. Soils with more voids have a lower load-bearing capacity, while compacted sands have a higher load-bearing capacity. In general pile design, for skin friction piles, the focus is on the size and length of the pile to generate sufficient lateral friction to support the applied load. For end bearing piles, the design aims to have the pile sit on a compacted sand layer. Types of piles used in construction can be broadly categorized into three main types based on their manufacturing and usage characteristics: 1. Spun Piles: These piles are produced by spinning concrete in a mold at high speed. This process results in a dense and strong concrete core with embedded steel reinforcement. Spun piles can be driven or drilled and are suitable for high-rise buildings that require strength to withstand wind loads and earthquakes. 2. Bored Piles: Bored piles are constructed by drilling a hole and then placing steel reinforcement and concrete into the drilled hole. They come in various lengths and sizes as specified. Bored piles are suitable for projects that require high strength and load capacity. 3. Prestressed Concrete (PC) Piles: PC piles are manufactured by placing concrete into a mold that contains prestressed steel wires or strands. The concrete is then compressed to enhance its strength. PC piles are used in construction projects that require high strength and durability in various environmental conditions. Siam Wire Industries (SIW) offers PC Wire and PC Strand, which are the primary components used in the production of prestressed concrete piles. SIW has gained recognition in over 50 countries worldwide and provides post-sales services, including on-site wire pulling tests for customers. These services ensure customer confidence in using SIW's prestressed wire products. PC Wire: [Link to SIW's PC Wire product page] (https://www.siw.co.th/en/product-detail/pc-wire) PC Strand: [Link to SIW's PC Strand product page] (https://www.siw.co.en/th/product-detail/pc-strand)

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