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1489481

全球乾搗大眾市場 - 2024-2031

Global Dry Ramming Mass Market - 2024-2031

出版日期: 2024年06月05日 | 出版商:

DataM Intelligence | 英文 181 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

概述

2023 年，全球乾搗打市場規模達到 23 億美元，預計到 2031 年將達到 39 億美元，2024-2031 年預測期間複合年成長率為 6.7%。

乾搗打料是一種用於製造和維護熔爐和其他高溫加工設備的耐火材料。它是由耐火卵石、粉末和黏結劑組成的乾燥顆粒狀組合物。持續的城鎮化和工業化趨勢、基礎設施建設項目的激增以及鋼鐵和金屬行業投資的增加是預計期間市場需求的主要促進因素。

此外，鋼鐵業的快速成長對全球市場的成長產生了有益的影響。根據世界鋼鐵協會的數據，預計 2021 年全球粗鋼產量將達到 19.51 億噸，高於 2020 年的 18.79 億噸。用於乾搗打料。

到 2023 年，北美預計將成為第二大主導地區，佔全球乾搗打大眾市場的 20% 以上。市場參與者形成策略聯盟、併購，以增加其市場佔有率並發展該地區的分銷網路。 2019年，北美耐火製品公司Plibrico與全球耐火及高性能材料供應商Vesuvius合併。它確立了全球耐火材料領導者的地位，在該地區擁有廣泛的業務和更廣泛的干搗打料解決方案。

動力學

熔爐性能不斷提高

鍋爐，特別是用於發電的鍋爐，需要能夠承受高溫和腐蝕性副產品的耐火材料。乾搗打料在這種情況下非常成功，具有優異的耐熱應力、腐蝕和磨損性能。堅固耐用可延長鍋爐的使用壽命並確保高效的熱管理。

在化學和核工業中，安全殼需要能夠承受化學攻擊和輻射損傷的材料。乾搗打料，特別是那些高氧化鋁含量的搗打料，因其優異的機械強度和在惡劣化學條件下的惰性而受到青睞。由氧化鋁或氧化鋁-二氧化矽製成的搗打塊通常是優選的，因為它們在受到化學物質和高溫時能夠保持結構完整性。

氧化鋁搗打料優異的耐腐蝕性

氧化鋁搗打料是由優質氧化鋁骨材和細粉與耐火粘土和適當的結合劑混合而成。它在感應爐爐襯中的使用有助於提高壽命和效率。高速公路、橋樑、鐵路和建築物建設等基礎設施項目需要大量的鋁和其他金屬，從而產生了對用於製造這些材料的乾搗料的需求。

政府計劃和基礎設施項目推動了對乾搗實材料的需求。例如，印度政府宣布了一項廣泛的國家基礎設施管道，承諾在 2019-2025 會計年度提供 1.5 兆美元的資金。最初計劃有 6,835 個項目，到 2021 年底，投資組合已擴大到 7,400 個，涵蓋高速公路、住房、城市發展、鐵路、再生能源、常規電力和灌溉等各個領域。

生產成本高

乾搗打料由多種原料組成，包括耐火礦物、結合劑和添加劑。某些原料的價格因供需動態、地緣政治衝突和貨幣波動等因素而波動，對製造商的生產成本和利潤率產生影響。乾搗打大規模生產需要大量能源和特定的製造技術，這增加了龐大的生產成本。

製造商在應對價格上漲的同時，面臨著保持競爭力的障礙。一些最終用戶選擇替代耐火材料或技術，例如預製模板、不定形耐火材料或陶瓷纖維，因為它們安裝速度更快、性能更好且成本更低。這種替代品對乾搗打大眾市場的成長構成了障礙。

Dry ramming mass is a type of refractory material used in the manufacture and maintenance of furnaces and other high-temperature processing devices. It is a dry, granular combination made up of refractory pebbles, powders and bonding agents. The continuous urbanization and industrialization trend, spike in infrastructure development projects and increasing investments in the steel and metal sectors are the primary driving factors for market demand during the projected period.

Furthermore, the rapid growth of the steel industry has a beneficial impact on market growth around the globe. In accordance to the World Steel Association, crude steel production globally is expected to reach 1,951 Million Tons in 2021, up from 1,879 million tons in 2020. The robust growth of the steel industry, driven by expanding construction and infrastructure projects globally, fuels the demand for dry ramming mass.

In 2023, North America is expected to be the second-dominant region with over 20% of the global dry ramming mass market. Market players form strategic alliances, mergers and acquisitions to increase their market presence and develop distribution networks in the region. In 2019, Plibrico, a North American refractory product company, combined with Vesuvius, a global supplier of refractory and high-performance materials. It established a global refractory leader with an established presence in the region and a larger range of dry ramming mass solutions.

Dynamics

Rising Performances in Furnaces

Boilers, especially those used in power generation, require refractory materials that can tolerate high temperatures and corrosive byproducts. Dry ramming mass is quite successful in this situation, offering superior resistance to thermal stress, corrosion and abrasion. The robustness extends the boiler's service life and ensures efficient thermal management.

In the chemical and nuclear industries, containment vessels require materials that can withstand chemical attacks and radiation damage. Dry ramming masses, particularly those high in alumina content, are preferred for their superior mechanical strength and inertness in harsh chemical conditions. Ramming masses made of alumina or alumina-silica are often preferred for their ability to maintain structural integrity when subjected to chemicals and high temperatures.

Excellent Corrosion Resistance of Alumina Ramming Mass

Alumina ramming mass is made up of high-quality alumina aggregates and fines combined with refractory clay & appropriate binders. Its use in the lining of induction furnaces helps to increase longevity and efficiency. Infrastructure projects such as the construction of highways, bridges, railways and buildings require substantial amounts of aluminum and other metals, creating demand for dry ramming mass utilized in the manufacturing of these materials.

Government programs and infrastructure projects drive up demand for dry ramming mass materials. For example, the Indian government announced an extensive National Infrastructure Pipeline with a funding commitment of US$ 1.5 trillion for fiscal years 2019-2025. Originally planned for 6,835 projects, the portfolio extended to 7,400 by the end of 2021, covering varied sectors such as highways, housing, urban development, railroads, renewable energy, conventional power and irrigation.

High Production Costs

Dry ramming mass is made up of a variety of raw materials, including refractory minerals, binders and additives. Prices for certain raw materials fluctuate due to factors such as supply-demand dynamics, geopolitical conflicts and currency fluctuations, which have an impact on manufacturers' production costs and profit margins. Dry ramming mass production requires a lot of energy and specific manufacturing techniques, which adds up to significant production costs.

Manufacturers confront hurdles in remaining competitive while dealing with rising prices. Some end-users choose alternative refractory materials or technologies, such as precast forms, monolithic refractories or ceramic fibers, since they are faster to install, perform better and are less expensive. The substitute poses a hurdle for the growth of the dry ramming mass market.

Segment Analysis

The global dry ramming mass market is segmented based on type, function, application and region.

Diverse Applications of Lining Drives the Segment Growth

Lining is expected to be the dominant segment with over 30% of the market during the forecast period 2024-2031. Refractory linings are crucial in ensuring the integrity of industrial operations. It resists high temperatures, chemical reactions and mechanical wear. As a result, there is a steady demand for high-quality refractory materials to line furnaces and other processing facilities.

Refractory linings are utilized in a variety of sectors, including steel, cement, glass, non-ferrous metals and petroleum. The many uses in several sectors lead to a sizable market for lining materials. Advances in refractory technology, especially the creation of high-performance and specialized lining materials, lead to the ongoing need for these materials in numerous industries.

Geographical Penetration

Rising Construction Projects in Asia-Pacific

Asia-Pacific is expected to be the dominant region in the global dry ramming mass market covering over 30% of the market. The region's vast building and infrastructure projects, together with the installation of new industrial facilities, add to the growing need for refractory materials. The region's diverse manufacturing activities, which include automotive, electronics and heavy machinery manufacture, increase the reliance on furnaces and high-temperature equipment, needing long-lasting refractory linings.

Government actions that promote industrial growth and infrastructure development contribute to a strong market for dry ramming material. In the Philippines, the government planned an infrastructure-focused economic recovery in 2021, investing US$ 6.5 billion from the national budget to the Department of Public Works and Highways. The financing was directed to bridge construction, flood management, asset preservation and the building of transportation networks, showing a strategic priority on infrastructure projects for economic recovery.

Competitive Landscape

The major global players in the market include Saint Gobain, Dense Refractories Co. Ltd., Imperial World Trade Pvt. Ltd., Refcast Corporation, Vishva Vishal Refractory Limited, Casco Specialty Products, Inc., Gita Refractories Private Limited, Shenghe Refractories, RHI Magnesita N.V. and Henan Xinmi Changxing Refractory Material Co., Ltd.

COVID-19 Impact Analysis

Lockdowns, travel restrictions and quarantine procedures imposed to stop the virus's spread have affected global supply networks. It has impacted the availability of raw materials used in the manufacture of dry ramming mass, potentially causing to shortages and price variations. Due to delays in construction projects, manufacturing activities and infrastructure development, the pandemic has resulted in lower demand from important end-use industries such as steel, foundries and nonferrous metals.

The decline in demand has had an influence on the consumption of dry ramming mass, which is largely used to line furnaces and kilns in these industries. The epidemic has caused many construction and industrial projects to be postponed or cancelled, resulting in a fall in demand for dry ramming mass materials. Uncertainty about the duration and severity of the pandemic has also discouraged investment in new projects, further affecting market development.

Russia-Ukraine War Impact

Ukraine and Russia are major sources of raw materials used in the production of dry ramming mass, including refractory minerals such magnesite, chromite and dolomite. Conflict-related disruptions in the production or supply of various basic resources resulted in globally market shortages and price changes. The region's instability caused swings in currency exchange rates and commodity prices, which affected the cost of raw materials for dry ramming mass manufacturers.

It increased production costs and, as a result, higher end-product pricing, affecting both manufacturers and consumers. The violence affected trade routes and transportation networks, impacting the export and import of dry ramming mass and other associated items. Slowdowns in shipments, increased freight costs and logistical issues affected supply chains, limiting market access for manufacturers and distributors.

By Type

Alumina Ramming Mass
Silica Ramming Mass
Magnesia-based Ramming Mass
Others

By Function

Lining
Patching
Repairing
Others

By Application

Foundries
Steel
Electric Arc Furnace
Blast Furnace
Non-steel
Others

By Region

North America
- U.S.
- Canada
- Mexico
Europe
- Germany
- UK
- France
- Italy
- Russia
- Rest of Europe
South America
- Brazil
- Argentina
- Rest of South America
Asia-Pacific
- China
- India
- Japan
- Australia
- Rest of Asia-Pacific
Middle East and Africa

Key Developments

In 2022, Saint-Gobain, a global leader in building supplies and construction solutions, has announced a partnership with Imerys to develop next-generation refractory materials, especially dry ramming mass, for the steel industry. The collaboration intends to harness the experience of both firms in developing novel and sustainable refractory solutions.
In 2022, Imerys, a global pioneer in mineral-based solutions, has purchased Kerneos, a French manufacturer of refractory goods, including dry ramming mass. The acquisition strengthened Imerys' position in the refractory industry and expanded its product offering to encompass a greater range of dry ramming mass solutions.
In 2020, Harbison-Walker International, a global provider of refractory products, merged with Morando, an Italian maker of refractory materials, mainly dry ramming mass. The merger formed a globally refractory powerhouse with a significant presence in the European market and a broader choice of dry ramming mass solutions.

Why Purchase the Report?

To visualize the global dry ramming mass market segmentation based on type, function, application and region, as well as understand key commercial assets and players.
Identify commercial opportunities by analyzing trends and co-development.
Excel data sheet with numerous data points of dry ramming mass market-level with all segments.
PDF report consists of a comprehensive analysis after exhaustive qualitative interviews and an in-depth study.
Product mapping available as excel consisting of key products of all the major players.

The global dry ramming mass market report would provide approximately 62 tables, 57 figures and 181 pages.

Target Audience 2024

Manufacturers/ Buyers
Industry Investors/Investment Bankers
Research Professionals
Emerging Companies

1.Methodology and Scope

1.1.Research Methodology
1.2.Research Objective and Scope of the Report

2.Definition and Overview

3.Executive Summary

3.1.Snippet by Type
3.2.Snippet by Function
3.3.Snippet by Application
3.4.Snippet by Region

4.Dynamics

4.1.Impacting Factors
- 4.1.1.Drivers
  - 4.1.1.1.Rising Performances in Furnaces
  - 4.1.1.2.Excellent Corrosion Resistance of Alumina Ramming Mass
- 4.1.2.Restraints
  - 4.1.2.1.High Production Costs
- 4.1.3.Opportunity
- 4.1.4.Impact Analysis

5.Industry Analysis

5.1.Porter's Five Force Analysis
5.2.Supply Chain Analysis
5.3.Pricing Analysis
5.4.Regulatory Analysis
5.5.Russia-Ukraine War Impact Analysis
5.6.DMI Opinion

6.COVID-19 Analysis

6.1.Analysis of COVID-19
- 6.1.1.Scenario Before COVID-19
- 6.1.2.Scenario During COVID-19
- 6.1.3.Scenario Post COVID-19
6.2.Pricing Dynamics Amid COVID-19
6.3.Demand-Supply Spectrum
6.4.Government Initiatives Related to the Market During Pandemic
6.5.Manufacturers Strategic Initiatives
6.6.Conclusion

7.By Type

7.1.Introduction
- 7.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 7.1.2.Market Attractiveness Index, By Type
7.2.Alumina Ramming Mass*
- 7.2.1.Introduction
- 7.2.2.Market Size Analysis and Y-o-Y Growth Analysis (%)
7.3.Silica Ramming Mass
7.4.Magnesia-based Ramming Mass
7.5.Others

8.By Function

8.1.Introduction
- 8.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 8.1.2.Market Attractiveness Index, By Function
8.2.Lining*
- 8.2.1.Introduction
- 8.2.2.Market Size Analysis and Y-o-Y Growth Analysis (%)
8.3.Patching
8.4.Repairing
8.5.Others

9.By Application

9.1.Introduction
- 9.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
- 9.1.2.Market Attractiveness Index, By Application
9.2.Foundries*
- 9.2.1.Introduction
- 9.2.2.Market Size Analysis and Y-o-Y Growth Analysis (%)
9.3.Steel
9.4.Electric Arc Furnace
9.5.Blast Furnace
9.6.Non-steel
9.7.Others

10.By Region

10.1.Introduction
- 10.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
- 10.1.2.Market Attractiveness Index, By Region
10.2.North America
- 10.2.1.Introduction
- 10.2.2.Key Region-Specific Dynamics
- 10.2.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 10.2.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 10.2.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
- 10.2.6.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
  - 10.2.6.1.U.S.
  - 10.2.6.2.Canada
  - 10.2.6.3.Mexico
10.3.Europe
- 10.3.1.Introduction
- 10.3.2.Key Region-Specific Dynamics
- 10.3.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 10.3.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 10.3.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
- 10.3.6.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
  - 10.3.6.1.Germany
  - 10.3.6.2.UK
  - 10.3.6.3.France
  - 10.3.6.4.Italy
  - 10.3.6.5.Russia
  - 10.3.6.6.Rest of Europe
10.4.South America
- 10.4.1.Introduction
- 10.4.2.Key Region-Specific Dynamics
- 10.4.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 10.4.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 10.4.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
- 10.4.6.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
  - 10.4.6.1.Brazil
  - 10.4.6.2.Argentina
  - 10.4.6.3.Rest of South America
10.5.Asia-Pacific
- 10.5.1.Introduction
- 10.5.2.Key Region-Specific Dynamics
- 10.5.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 10.5.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 10.5.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
- 10.5.6.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
  - 10.5.6.1.China
  - 10.5.6.2.India
  - 10.5.6.3.Japan
  - 10.5.6.4.Australia
  - 10.5.6.5.Rest of Asia-Pacific
10.6.Middle East and Africa
- 10.6.1.Introduction
- 10.6.2.Key Region-Specific Dynamics
- 10.6.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Type
- 10.6.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Function
- 10.6.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application

11.Competitive Landscape

11.1.Competitive Scenario
11.2.Market Positioning/Share Analysis
11.3.Mergers and Acquisitions Analysis

12.Company Profiles

12.1.Saint Gobain*
- 12.1.1.Company Overview
- 12.1.2.Product Portfolio and Description
- 12.1.3.Financial Overview
- 12.1.4.Key Developments
12.2.Dense Refractories Co. Ltd.
12.3.Imperial World Trade Pvt. Ltd.
12.4.Refcast Corporation
12.5.Vishva Vishal Refractory Limited
12.6.Casco Specialty Products, Inc.
12.7.Gita Refractories Private Limited
12.8.Shenghe Refractories
12.9.RHI Magnesita N.V.
12.10.Henan Xinmi Changxing Refractory Material Co., Ltd.

LIST NOT EXHAUSTIVE