市場調查報告書
商品編碼
1250797
到 2028 年的火花等離子燒結市場預測——按報價、應用、最終用戶和地區進行的全球分析Spark Plasma Sintering Market Forecasts to 2028 - Global Analysis By Offering, Application, End User and By Geography |
根據 Stratistics MRC 的數據,預計到 2022 年全球火花等離子燒結市場將達到 13 億美元,並在 2028 年達到 19 億美元,預測期內增長 6.5%。以復合年增長率增長
火花等離子燒結 (SPS) 是一種壓力輔助脈衝電流工藝,其中將粉末樣品裝入導電模具中並在單軸壓力下燒結。 放電等離子燒結 (SPS) 也稱為場輔助燒結技術 (FAST)。 當加壓時,它通常用於使用直流 (DC) 脈衝電流激活來鞏固或合成材料。 這種方法可以在幾分鐘內完成,而傳統燒結則需要數小時。 可以將緻密材料燒結成超細或納米級顆粒圖案,樣品的加熱和冷卻非常迅速,不需要加熱設備。 它是實驗室用來製備生物材料的燒結方法之一。
根據中國汽車工業協會 (CAAM) 的數據,到 2021 年,中國將售出超過 290 萬輛純電動汽車,與 2020 年相比增長 162%。 此外,同年中國售出約60.3萬輛插電式混合動力汽車,較2020年增長140%。
先進技術
工業界對開發基於強大電流強度的技術非常感興趣。 熱壓燒結和熱等靜壓等最先進的工藝可實現簡單的操作和精確的能源管理。 它的高性能,如速度、可重複性、安全性和可靠性,正在推動市場。
只能創建簡單的對稱形狀
由於放電等離子燒結的設計,只能將顆粒製成基本形狀。 對於復雜的幾何形狀,單軸壓制導致的密度不均勻是首要問題。 沒有一種材料適用於所有形狀。 這些因素阻礙了市場的增長。
增加對創新材料的採用
SPS 已成為製造濺射靶材、熱電材料、金屬-金剛石複合材料、彌散強化材料、超細晶材料等的創新方法。 由於可用性和製造成本的下降,新金屬、工業和消費複合材料以及陶瓷等創新材料正在推動使用量的增加和市場的擴張。
需要昂貴的脈衝直流發電機
SPS 使用單軸力和脈衝(開/關)直流電 (DC) 在低壓下高速固結粉末。 然而,直流發電機非常昂貴,因為它們需要獨立的激勵源。 因此,它的使用受到限制。 因此,當自激發電機無法應對時,它通常用於防止故障。 這些因素阻礙了市場的擴張。
COVID-19 疫情是火花等離子燒結全球市場擴張的障礙。 在 COVID-19 封鎖期間,SPS 進行了各種調查,隨後對調查市場的擴張產生了積極影響。 像愛達荷州這樣的領先研究機構生產尖端工具來幫助工業界開發有效的 SPS 製造工藝。
預計預測期內機械板塊佔比最大
由於其易於操作,預計機械行業將實現有利可圖的增長。 與使用熱壓 (HP) 燒結、熱等靜壓 (HIP) 和常壓爐的傳統系統相比,火花等離子燒結機具有許多優勢。 燒結能量的精確控制、高速燒結、高再現性、安全性和可靠性正在推動這一領域的發展。
預計汽車行業在預測期內的複合年增長率最高
由於綠色技術的發展,預計汽車行業在預測期內將以最快的複合年增長率增長。 SPS在汽車行業,尤其是電動汽車領域的熱電發電機的生產中具有很大的應用潛力。 這種新的綠色技術將工業設施和汽車尾氣的廢熱轉化為電能。 由於減少燃料使用和溫室氣體排放等因素,該行業正在擴大。
市場份額最高的地區
亞太地區是電子和半導體行業的聚集地,預計在預測期內將佔據最大的市場份額。 該地區的醫療旅遊業也在不斷發展,越來越符合國際質量標準。 此外,由於海外患者的增加,對SPS人工關節生物材料的需求也在增加。 這些因素正在推動該地區的市場增長。
由於數字化程度不斷提高,預計亞太地區在預測期內的複合年增長率最高。 數字化在該地區更為普遍。 供應商還提供自動攝取數據並提供無限虛擬存儲的技術。 該地區的國家也躋身於軍事和國防開支最高的國家之列。 這些方面正在推動該地區的市場增長。
2023 年 1 月,Fuji Electric Co., Ltd. 在 MICREX-VieW FOCUS 系列中增加了工廠自動監控系統 MICREX-VieW FOCUS 系列,可根據客戶問題實現靈活的系統構建。 ” 已宣布額外發布。
2020 年 3 月,Thermal Technology 將擴大其 5 噸級微型移動 SPS/DCS 壓力機系統的陣容,這是 DCS 有史以來最大的壓力機系統,同時 SPS/DCS 也實現了小型化。
購買此報告的客戶將免費獲得以下定制之一。
According to Stratistics MRC, the Global Spark Plasma Sintering Market is accounted for $1.3 billion in 2022 and is expected to reach $1.9 billion by 2028 growing at a CAGR of 6.5% during the forecast period. Spark plasma sintering (SPS) is a pressure-assisted pulsed-current process in which the powder samples are loaded in an electrically conducting die and sintered under a uniaxial pressure. The spark plasma sintering (SPS) is also known as Field Assisted Sintering Technique (FAST). When pressure is applied, it is frequently employed for the consolidation or synthesis of materials using direct current (DC) pulse current activation. In contrast to traditional sintering, which might take hours, this procedure can be finished in a matter of minutes. High-density materials may be sintered with ultra-fine or even nanoscale grain patterns without the need of heating devices due to the sample's ability to be heated and cooled very quickly. It is one of the sintering methods used to prepare biomaterials in the lab.
According to the China Association of Automobile Manufacturers (CAAM), in 2021, over 2.9 million battery electric vehicles were sold in China, growing 162% compared to 2020. Moreover, about 603,000 plug-in hybrid cars were sold in China during the same year, an increase of 140% compared to 2020.
Advanced techniques
Industries have shown a lot of interest in developing technologies based on robust current intensities. Easy operations and precise energy management are made possible by cutting-edge processes like hot press sintering and hot isostatic pressing. The market is propelling as a result of its capabilities, including speed, repeatability, safety, and dependability.
Only simple symmetrical shapes can be constructed
Pellets were the only basic forms that could be produced owing to the Spark plasma sintering's design. The primary issue with complicated forms is the uniaxial pressing-induced inhomogeneity of density. All forms cannot be used with a corresponding material. These factors are hampering the growth of the market.
Increasing adoption of innovative materials
SPS has become the innovative method for creating sputter targets, thermoelectric materials, metal-diamond composite materials, dispersion-enhanced materials, and ultra-fine crystalline materials. Due to their expanding availability and declining production costs, innovative materials such as novel metals, composite materials in industrial and consumer items and ceramics are facing increased usage which is therefore driving the market expansion.
Requirement of expensive pulsed DC generator
Uniaxial force and pulsed (on-off) direct electrical current (DC) are used in SPS, which uses low air pressure to carry out the powder's high-speed consolidation. Due to the independent excitation source they require, DC generators which are quite expensive. As a result, they are limited in their application options. They are often employed to prevent hassles when the usage of self-excited generators is inadequate. These factors are hindering the market expansion.
The COVID-19 epidemic served as a barrier to the expansion of the world market for spark plasma sintering. Many forms of research were conducted in the SPS during the COVID-19 lockout, and this subsequently had a favourable impact on the expansion of either the market under study. Major research institutions like IDAHO have produced cutting-edge tools to assist industry in developing effective SPS manufacturing processes.
The machines segment is expected to be the largest during the forecast period
The machines segment is estimated to have a lucrative growth, due to its ease of operation. Spark plasma sintering machines offer many advantages over conventional systems using hot press (HP) sintering, hot isostatic pressing (HIP) or atmospheric furnaces. It provides accurate control of sintering energy as well as high sintering speed, high reproducibility, safety and reliability which are driving the segment growth.
The automotive segment is expected to have the highest CAGR during the forecast period
The automotive segment is anticipated to witness the fastest CAGR growth during the forecast period, due to green technology development. SPS offers tremendous prospects in the automotive industry, particularly in the electric vehicle sector, where it is employed in the creation of thermoelectric generators. This emerging green technology turns the waste heat from industrial facilities and motor exhaust into power. The segment is expanding as a result of factors including decreased fuel use and greenhouse gas emissions.
Region with largest share:
Asia Pacific is projected to hold the largest market share during the forecast period owing to numerous electronic and semiconductor industries. With the growing compliance with international quality standards, the medical tourism industry is also growing in this region. The demand for SPS joint replacement biomaterials is also rising because of an upsurge in overseas patients. These elements are fuelling the market growth in this region.
Asia Pacific is projected to have the highest CAGR over the forecast period, owing to raising digitization. Digitization is becoming more prevalent in this region. Vendors are also offering techniques through which data is automatically captured and provides unlimited virtual storage. The countries in the region are also in the top listings of the highest spenders on military and defense. These aspects are driving the market growth in this region.
Some of the key players profiled in the Spark Plasma Sintering Market include Fuji Electronic Industrial Co. Ltd, Toshniwal Instruments Madras Pvt Ltd, Dr Fritsch GmbH & Co KG, MTI Corporation, Thermal Technology LLC, Shanghai HaoYue Furnace Technology Co Ltd, FCT Systeme GmbH, Elenix Inc, SinterLand Inc, 3D Systems, ALD Vacuum Technologies, ECM Technologies, Farsoon Technologies, PVA Tepla Group, Seco Warwick, Simuwu, Koyo Thermo Systems, Linn High Therm, Matsuura Machinery and Gasbarre Products.
In January 2023, Fuji Electric Co., Ltd. Announced the launch of a new addition to the MICREX-VieW FOCUS Series automation monitoring and control systems for plants, the MICREX-VieW FOCUS Evolution, which is capable of flexible system construction to fit customer issues.
In March 2020, Thermal Technology continues to expand its product line in both smaller SPS/DCS equipment offerings as well as breaking new records into the largest DCS product offering to date with a 5-Ton Micro-Mobile SPS/DCS Pressing System.
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