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到 2030 年防静电软管市场预测:按类型、特征、材料、技术、用途和地区进行的全球分析Anti-Static Hose Market Forecasts to 2030 - Global Analysis By Type, Function, Material, Technology, Application and By Geography |
根据 Stratistics MRC 的数据,2023 年全球抗静电软管市场规模为 13.6 亿美元,预计到 2030 年将达到 23.4 亿美元,预测期内年复合成长率为 8.0%。
旨在抑制静电的软管类型称为防静电软管。在易燃环境中,静电会引起火灾并损坏电子设备。此外,防静电软管也用于许多可能产生静电释放的行业,例如半导体行业、製药业、饮料业。
根据美国静电共识实践 NFPA-77,液体可分为导电性(大于 10,000 pS/m)、半导体性(50 至 10,000 pS/m)和非导电性(小于 50 pS/m)。类。
由于製造业的扩大和自动化技术的发展,对防静电软管的要求越来越高。这些软管在保护自动化流程中的敏感产品和设备方面发挥着重要作用,在自动化流程中,即使是最轻微的静电放电也会造成代价高昂的损坏。此外,智慧工厂和工业 4.0 计画的出现增加了对防静电软管的需求,旨在维持自动化系统和生产流程的不间断运作。
防静电软管对于防止静电放电至关重要,但它们很容易劣化,特别是在恶劣的工业环境中。磨损、化学暴露和机械应力在关注软管耐用性的行业中很常见。另外,需要维护来维持防静电效果,这增加了营运成本。这个问题可以透过创造更坚固的材料和设计以及使用预防性维护技术来解决。
目前材料科学的进步为抗静电软管市场带来了巨大的机会。为了保持竞争力,必须开发具有增强抗静电性能的新材料和涂料。製造商可以透过生产不仅耐用、经济,而且能高效防止静电放电的软管来满足各种产业的需求。此外,与材料科学家合作研究新材料并将其纳入防静电软管设计中可以开拓新的用途和市场。
市场的主要风险是其对导电材料和特殊涂料等原料价格波动的敏感度。所需原料成本的波动可能导致生产成本增加和盈利下降。企业需要密切注意这些成本变化并快速做出反应。此外,长期供应合约、避险和创造替代材料等策略有助于减少原物料价格波动的影响。
抗静电软管市场受到了 COVID-19大流行的各种影响。最初,由于全球供应链中断,这些关键安全零件的生产和出货被推迟。此外,由于各行业停工和经济活动下降,市场成长暂时放缓。儘管如此,这种流行病仍然引起了人们对职场安全和电子设备製造的重要性的关注,增加了对防静电软管的需求。随着公司专注于智慧且环保的解决方案,这个市场已经转向技术创新。
在防静电软管市场中,塑胶类型占据最大份额。这是塑胶软管广泛使用的结果,塑胶软管由 PVC 或聚氨酯结构,在各个行业都有广泛的用途。此外,价格也很合理。它耐用、弹性且易于定制以满足特定要求,使其成为受欢迎的选择。它还具有防止静电放电的作用。此外,儘管橡胶和硅胶类型也有其自己的用途和优点,但塑胶类型由于其在不同行业的广泛使用和适应性而往往占据市场主导地位。
在防静电软管市场中,食品业预计将呈现最高的年复合成长率。这是食品业越来越重视安全、清洁和遵守严格法律的结果。防静电软管在该行业中至关重要,可防止静电放电,从而导致爆炸、火灾和污染食品。此外,为了确保食品生产和加工的安全性和完整性,对防静电软管的需求预计将显着增加,并且随着消费者偏好和国际贸易的变化,食品工业不断扩大,对防静电软管的需求也将显着增加,以确保食品生产和加工过程中的安全性和完整性。食品生产和加工的安全性和完整性预计将显着提高,这被认为会带来成长。
预计防静电软管市场将在北美占据最大份额。这主要是因为许多行业,例如製造、电子设备和化工,都高度重视安全标准和法规。该地区强大的工业基础和高度的职场安全意识推动了对防静电软管的需求。抗静电软管对于处理易燃材料和爆炸性环境至关重要,北美市场受益于法规这些活动的严格法规。此外,北美对产品品质和安全的重视以及完善的部门使该地区成为全球防静电软管市场的主要参与者。
欧洲地区防静电软管市场的年复合成长率最高。严格的安全法要求在电子设备、化学和製药等多种行业使用抗静电软管,这是该地区成长的主要动力。这些软管市场得到了欧洲对环境保护、产品品质和工人安全的配合措施的进一步支持。此外,对环保和永续解决方案的日益重视符合欧洲对环境保护的配合措施,并为製造商提供了提供高效、环保的防静电软管的机会。
According to Stratistics MRC, the Global Anti-Static Hose Market is accounted for $1.36 billion in 2023 and is expected to reach $2.34 billion by 2030 growing at a CAGR of 8.0% during the forecast period. A hose type intended to lessen static electricity is called an anti-static hose. In combustible environments, static electricity can result in fires and harm to electronic devices. Moreover, in many industries where electrostatic discharge is a possibility, such as the semiconductor, pharmaceutical, and beverage industries, anti-static hoses are utilized.
According to NFPA-77, the US consensus practice on static electricity, liquids can be divided into three classes; conductive (>10,000pS/m), semi-conductive (50-10,000pS/m) and non-conductive (<50pS/m).
Anti-static hose requirements have increased due to the expansion of manufacturing and the development of automation technologies. These hoses play a critical role in protecting delicate products and equipment in automated processes, where even a small static discharge can cause expensive damage. Additionally, the need for anti-static hoses is increased by the emergence of smart factories and Industry 4.0 initiatives, which are aimed at preserving the uninterrupted operation of automated systems and production processes.
Anti-static hoses are vital for stopping electrostatic discharge, but they are prone to deterioration, particularly in hard industrial settings. Abrasion, chemical exposure, and mechanical stress are common in industries where hose durability is a concern. Furthermore, the continuous efficacy of anti-static qualities requires maintenance, which raises operating expenses. This problem can be solved by creating stronger materials and designs and by using preventative maintenance techniques.
The present advances in material science present a good chance for the market for anti-static hose. Gaining a competitive edge involves creating novel materials and coatings with enhanced anti-static qualities. Manufacturers can meet the demands of various industries by producing hoses that are not only more durable and economical but also very effective in preventing static discharge. Additionally, working together with material scientists to investigate novel materials and incorporate them into anti-static hose designs may lead to the development of new applications and markets.
A major danger to the market is its sensitivity to changes in the price of raw materials, like conductive materials and specialty coatings. Changes in the cost of necessary materials can result in higher production costs and lower profitability. Companies need to keep a close eye on and respond quickly to these changes in expenses. Moreover, the impact of raw material price volatility can be lessened by putting strategies like long-term supply contracts, hedging, or creating alternative materials into practice.
The anti-static hose market has been impacted by the COVID-19 pandemic in a number of ways. Initially, production and shipping of these vital safety components were delayed due to disruptions in global supply chains. Furthermore, a temporary slowdown in the market's growth was caused by lockdowns and decreased economic activity in various industries. Nonetheless, there was a rise in demand for anti-static hoses as the pandemic brought attention to the significance of workplace safety and the manufacturing of electronic devices. The market saw a change toward innovation as businesses concentrated on clever and environmentally friendly solutions.
In the anti-static hose market, the largest share is held by the plastic-type segment. This is a result of the widespread use of plastic-based hoses, which are composed of PVC or polyurethane and have a wide range of applications in a variety of industries. They are also reasonably priced. Their durability, flexibility, and ease of customization to meet specific requirements make them a popular choice. They are also effective in preventing electrostatic discharge. Moreover, the plastic type segment tends to dominate the market because of its widespread use and adaptability across diverse industries, even though rubber and silicone types have their own applications and advantages.
In the anti-static hose market, the food industry segment is projected to have the highest CAGR. This is a result of the food industry's growing emphasis on safety, cleanliness, and adherence to strict laws. In this industry, anti-static hoses are essential for preventing electrostatic discharge, which can cause explosions, fires, or contaminated food. Additionally, the need for anti-static hoses to guarantee the safety and integrity of food production and processing is anticipated to grow significantly, leading to high growth as the food industry continues to expand due to shifting consumer preferences and international trade.
The anti-static hose market is expected to hold the largest share in North America. This is mostly because a number of industries, including manufacturing, electronics, and chemicals, place a high priority on safety standards and regulations. Anti-static hose demand is driven by the region's strong industrial base and high level of workplace safety awareness. Anti-static hoses are an essential part of handling flammable materials and explosive atmospheres, and the North American market benefits from strict regulations governing these activities. Moreover, North America's emphasis on product quality and safety, along with its well-established manufacturing sector, establishes the region as a major player in the global anti-static hose market.
The market for anti-static hose is growing at the highest CAGR in the European region. Strict safety laws that require anti-static hoses to be used in a variety of industries, including electronics, chemicals, and pharmaceuticals, are the main driver of the region's growth. The market for these hoses is further supported by Europe's dedication to environmental preservation, product quality, and worker safety. Additionally, the growing emphasis on environmentally friendly and sustainable solutions is in line with European environmental initiatives, which presents a chance for manufacturers to offer anti-static hoses that are efficient and ecologically friendly.
Some of the key players in Anti-Static Hose market include: Prevost, Lockwood, Turali Group, Norres Schlauchtechnik GmbH, Gap Plastomere, Trelleborg Industrial Hose, Masterflex, Klimawent and Manuli Hydraulics.
In July 2023, Lockwood signed a two-year, two-way contract with Florida, PuckPedia reports. Lockwood played 13 games for the Canucks last season, picking up his first NHL point. He was dealt to the Rangers before the trade deadline and finished the season with AHL Hartford, where he had five goals and 12 points in 17 games. Lockwood will likely begin the 2023-24 campaign in the AHL.
In July 2021, Masterflex was acquired by Avantor to Expand Proprietary Single-Use Offering for Bioproduction. Avantor, Inc., a leading global provider of mission-critical products and services to customers in the life sciences and advanced technologies & applied materials industries, today announced that it has entered into a definitive agreement to acquire the Masterflex bioprocessing business and related assets (collectively "Masterflex") of Antylia Scientific, a privately held, portfolio company of investment firms GTCR and Golden Gate Capital.
In March 2021, Trelleborg has, through its Trelleborg Industrial Solutions business area, signed an agreement and finalized the acquisition of the Dutch company Gutteling Group BV. The company develops and sells composite hoses to the chemical industry and is the market leader in hoses for liquefied natural gas (LNG) ship-to-ship transfer. The acquisition complements Trelleborg's industrial hose, and specifically, composite hose, offering. Composite hoses are mainly used for aggressive chemicals, such as chlorine, sulfuric acid, biofuels and LNG.