半導體玻璃晶圓市場- 預測:2021年~2026年
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Semiconductor Glass Wafer Market - Forecasts from 2021 to 2026 ... 全球半導體玻璃晶圓市場市場規模預測將從2019年的3億5,647萬2,000美元,在2026年達到 ...
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1013748
半導體玻璃晶圓市場-預測:2021年~2026年
SemiconductorGlassWaferMarket-Forecastsfrom2021to2026
出版日期:2021年04月20日
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出版商:KnowledgeSourcingIntelligence
|
英文107Pages
|
商品交期:最快1-2個工作天內
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簡介
目錄
簡介
全球半導體玻璃晶圓市場市場規模預測將從2019年的3億5,647萬2,000美元,在2026年達到5億3,047萬2,000美元,在預測期間內預計將以年複合成長率5.84%的速度成長。
預計各行業對半導體的需求激增將支持半導體玻璃晶圓的市場增長。
本報告提供全球半導體玻璃晶圓市場相關調查分析,提供市場動態,各市場區隔的市場分析,競爭環境,主要企業等相關的系統性資訊。
目錄
第1章簡介
第2章調查手法
第3章摘要整理
第4章市場動態
推動市場要素
阻礙市場要素
波特的五力分析
產業的價值鏈分析
第5章全球半導體玻璃晶圓市場分析:各用途
簡介
光學基板
MEMS
電子包裝
微微影術
其他
第6章全球半導體玻璃晶圓市場分析:各終端用戶
簡介
電子產品
半導體
生物科技
第7章全球半導體玻璃晶圓市場分析:各地區
簡介
南北美洲
美國
其他
歐洲·中東·非洲
德國
法國
英國
其他
亞太地區
中國
韓國
台灣
日本
其他
第8章競爭環境與分析
主要企業策略性分析
新興企業和市場收益性
合併,收購,協定,合作
供應商的競爭矩陣
第9章企業簡介
CorningInc
SchottAG
SwiftGlass
SydorOptics
SpecialtyGlassProducts
AGCInc
PrecisionGlassandOptics
目錄
Theglobalsemiconductorglasswafermarketisexpectedtogrowatacompoundannualgrowthrateof5.84%overtheanalyzedperiodtoreachamarketsizeofUS$530.472millionin2026fromUS$356.472millionin2019.Semiconductorglasswaferiscircularpiecesofprecisionglassthatareusedinvarioustechnicalandindustrialmanufacturing.Thisglassprotectsthesemiconductorwhileenablingsmoothfunctioning.Risingdemandforsemiconductorsacrossvariousindustryverticalsispredictedtosupportthemarketgrowthofsemiconductorglasswafers.Wideadaptationoftheseinelectronicsegmentsalongwithtechnologicaladvancementwillcontributeconsiderablytothedevelopmentofthemarket.Ariseindisposableincomeistheprimereasonbehindthegrowthofitsend-userindustries.Further,newrequirementsareemergingintheelectronicpackagingindustrywhichwidensthescopeofthesemiconductorglasswafermarket.TheemergenceoftheInternetofThings(IoT)anditsdevelopmentcreatesanexpandingmarketopportunityforsemiconductorglasswafers.However,limitationsinmanufacturingandinaccuracyduetohumanerrorhavethepotentialtoconstrainmarketgrowth.Furthermore,thepresenceofsubstitutessuchassiliconfurtherrestrictsmarketgrowth.
Theelectronicindustrywillhaveasignificantshareintheglobalsemiconductorglasswafermarket.
Basedonend-users,theglobalsemiconductorglasswafermarketissegmentedintoelectronics,semiconductors,andbiotechnology.Theelectronicsend-userofthemarketisexpectedtoshowrobustowingtospikingdemandforelectronics.Semiconductorwafers,suchassiliconwafers,areusedintheproductionofchipsandmicrochipsinelectronicgadgetswhichareinstalledincomputers,laptops,smartphones,smartwatches,andothers.Theindustryutilizesglasswafersinwaferpackagingandasasubstratecarrier.Itisalsousedinwaferpackagingofsensitivecomponentsowingtotheirsuperiorfunctionalityandextremereliability,especiallyunderharshenvironments.Technologicaladvancementandriseindisposableincomehaveincreasedthedemandforelectricgadgetsbytheconsumersatlarge,whichwilldrivethemarketdemandforelectronicandsemiconductorwaferglasses.
Intheproductionofsemiconductors,glasswafersactasacarriersubstratethatisfabricatedfromhighlydelicatematerialwhichcanbeeasilybentortear.Glassenablesthehandlingofsemiconductorssafelydespitebeingdelicateandthin.Glassisidealfortheproductionofsemiconductorsowingtoitssuperiorchemicalandthermalstability.Burgeoningdemandforsemiconductorswilldrivethedemandforsemiconductorglasswafersduringtheforecastedperiod.Inthebiotechnologyindustry,wafersandwaferglassareusedintheproductionofmicrofluidchips,wheretheglassactasasubstrate.Theglassenablesaclearviewrequiredbythebiotechnologyapplication,henceenablinggreaterefficiency.InIntegratedcircuitpackaging,glasswafersactasasubstratetodeliverbetterperformanceandcost-effectiveness.
Limitationsinmanufacturingandinaccuracyduetohumanerrorhavethepotentialtoconstrainthemarketgrowth.
Themajorhindrancefacingthesemiconductorglasswafermarketislimitationsinthemanufacturingprocess.Anefficientsemiconductorsetrequiresprecisionandaccuracyinmanufacturingforsmoothfunctioning.However,theoccurrenceofhumanerrorsmayhindertheaccuracyandimpacttheglasswafermarket.Further,robotscanbeusedtoperformthetask,eliminatingtheriskofhumanerror.Buttheserobotscomeataheftypriceandbudgetconstraintsmaybindtheirusage.Furthermore,siliconandmetalsareclosesubstitutesforsemiconductorglasswafers.Theabundanceavailabilityofsiliconmakesitmoreaccessible,constrainingfurther,themarketscope.
Thebenefitsofusingglassinsemiconductorswillenhancethemarketforsemiconductorglasswafers.
Glassisanidealsubstanceinthemanufacturingofsemiconductorsandhencewilldrivethegrowthinthesemiconductorglasswafermarket.Ofall,glasscanbetailoredmadeaspertherequirementofthecustomer,andperthesemiconductormanufacturing.Corning,forinstance,offersabroadportfolioofsemiconductorglass,whosesizerangesfrom3.2ppm/degreeCelsiusto12.4ppm/degreeCelsius,allowingthescopeofresizingaspercustomerneed.Further,semiconductorglasswafershavelessthicknessandlowwrap,requiringlessspaceandhelpsinminimizingyieldloss.Moreover,glassistransparentwhichenablesanefficientlaserde-bondprocess.Thesebenefitsprovideglasswafersacompetitiveedgeovertheirsubstitutes.
MEMSandelectronicpackagingapplicationofsemiconductorglasswafermarketwillhaveasignificantshareduringtheforecastedperiod.
Basedonapplication,theglobalsemiconductorglasswafermarketissegmentedintoopticalsubstrates,MEMS,electronicpackaging,microlithography,andothers.MEMSandelectronicpackagingapplicationsofglasswafersareprojectedtogrowataconsiderablerateowingtotheburgeoningmarket.Inmicroelectronicmechanicalsystems(MEMS),glasswafersdelivergreatersecuritytosensitivecomponents.Boomingdemandforelectronicsduetotechnologicaladvancementandsurgingdisposableincomewilldrivethemarketgrowth.Newrequirementsareemergingintheelectronicpackagingindustrywhichwidensthescopeofthesemiconductorglasswafermarket.TheemergenceoftheInternetofThings(IoT)anditsdevelopmentcreatesanexpandingmarketopportunityforsemiconductorglasswafers.
TheNorthAmericaregionwillhaveanoteworthymarketshare
Basedongeography,theglobalsemiconductormarketisdividedintoNorthAmerica,SouthAmerica,Europe,theMiddleEastandAfrica,andtheAsiaPacificregion.TheNorthAmericanregionisprojectedtoholdanoteworthyshareduringtheforecastedperiodowingtothespeedieradoptionoftechnologyandtheregion'sstate-of-the-artinfrastructure.TheAsiaPacificandEuropeareexpectedtogrowatanoteworthyrate.IntheAsiaPacificregion,surgingdemandforelectronicproductswilldrivesignificantmarketgrowth.
CovidPandemicInsights.
Thecoronaviruspandemicnegativelyaffectedtheglobalsemiconductorglasswafermarket.Ahaltinproductionbytheend-userindustries,tohonortheprotocoldevelopedbythegovernmenttobreakthecycleofthevirus,resultedinadecreaseindemandforsemiconductorglasswafers.
Segmentation:
ByApplication
OpticalSubstrates
MEMS
ElectronicPackaging
MicroLithography
Others
ByEndUsers
Electronics
Semiconductor
Biotechnology
ByGeography
Americas
USA
Others
EuropeMiddleEastandAfrica
Germany
France
UnitedKingdom
Others
AsiaPacific
China
SouthKorea
Taiwan
Japan
Others
TableofContents
1.Introduction
1.1.MarketDefinition
1.2.MarketSegmentation
2.ResearchMethodology
2.1.ResearchData
2.2.Assumptions
3.ExecutiveSummary
3.1.ResearchHighlights
4.MarketDynamics
4.1.MarketDrivers
4.2.MarketRestraints
4.3.PortersFiveForcesAnalysis
4.3.1.BargainingPowerofSuppliers
4.3.2.BargainingPowersofBuyers
4.3.3.ThreatofSubstitutes
4.3.4.ThethreatofNewEntrants
4.3.5.CompetitiveRivalryinIndustry
4.4.IndustryValueChainAnalysis
5.GlobalSemiconductorGlassWaferMarket,byApplication
5.1.Introduction
5.2.OpticalSubstrates
5.3.MEMS
5.4.ElectronicPackaging
5.5.MicroLithography
5.6.Others
6.GlobalSemiconductorGlassWaferMarket,byEndUsers
6.1.Introduction
6.2.Electronics
6.3.Semiconductor
6.4.Biotechnology
7.GlobalSemiconductorGlassWaferMarket,byGeography
7.1.Introduction
7.2.Americas
7.2.1.UnitedStates
7.2.2.Others
7.3.EuropeMiddleEastandAfrica
7.3.1.Germany
7.3.2.France
7.3.3.UnitedKingdom
7.3.4.Others
7.4.AsiaPacific
7.4.1.China
7.4.2.SouthKorea
7.4.3.Taiwan
7.4.4.Japan
7.4.5.Others
8.CompetitiveEnvironmentandAnalysis
8.1.MajorPlayersandStrategyAnalysis
8.2.EmergingPlayersandMarketLucrative
8.3.Mergers,Acquisition,Agreements,andCollaborations
8.4.VendorCompetitivenessMatrix
9.CompanyProfiles
9.1.CorningInc
9.2.SchottAG
9.3.SwiftGlass
9.4.SydorOptics
9.5.SpecialtyGlassProducts
9.6.AGCInc
9.7.PrecisionGlassandOptics
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