|
gptkbp:instanceOf
|
patent
|
|
gptkbp:economicImpact
|
High
|
|
gptkbp:environmentalImpact
|
Low
|
|
gptkbp:hasAbstract
|
A method for producing a high-strength steel alloy with improved ductility.
|
|
gptkbp:hasAccreditation
|
Controlled
|
|
gptkbp:hasApplicationNumber
|
13/123456
|
|
gptkbp:hasAssignee
|
gptkb:Steel_Innovations_Inc.
|
|
gptkbp:hasCitations
|
gptkb:Vanadium
Carbon
Chromium
Manganese
Nickel
Silicon
Molybdenum
US_9999999
|
|
gptkbp:hasClaim
|
20
|
|
gptkbp:hasCollaborationsWith
|
Universities
|
|
gptkbp:hasCompetitors
|
Other Steel Manufacturers
|
|
gptkbp:hasCountry
|
gptkb:US
|
|
gptkbp:hasDescription
|
This patent describes a novel method for producing a high-strength steel alloy.
|
|
gptkbp:hasDeveloped
|
Commercialized
|
|
gptkbp:hasExaminer
|
Jane_Smith
|
|
gptkbp:hasFacility
|
Improved
|
|
gptkbp:hasFieldOfUse
|
Automotive
Manufacturing
|
|
gptkbp:hasFilingDate
|
2013-05-15
|
|
gptkbp:hasFunding
|
Government Grants
|
|
gptkbp:hasInternationalClassification
|
C21D 8/00
|
|
gptkbp:hasInventor
|
gptkb:John_Doe
|
|
gptkbp:hasLegalStatus
|
Active
|
|
gptkbp:hasLength
|
High
|
|
gptkbp:hasMember
|
Yes
|
|
gptkbp:hasMerchandise
|
Hardness
Tensile Strength
Yield Strength
|
|
gptkbp:hasPatentNumber
|
10000007
|
|
gptkbp:hasPriorityDate
|
2012-05-15
2018-09-25
|
|
gptkbp:hasPrograms
|
3
|
|
gptkbp:hasPublications
|
2018-09-25
|
|
gptkbp:hasRelatedPatent
|
gptkb:US_10000006
Aerospace
Construction
Railway
Shipbuilding
Process
|
|
gptkbp:hasResearchInterest
|
Materials Science
Yes
|
|
gptkbp:hasTechnicalField
|
Metallurgy
|
|
gptkbp:hasTechnology
|
800-1200°C
|
|
gptkbp:hasTitle
|
Method for producing a high-strength steel alloy
|
|
gptkbp:hasTouristAttraction
|
Steel
|
|
https://www.w3.org/2000/01/rdf-schema#label
|
US 10000007
|
|
gptkbp:isCitedBy
|
gptkb:US_10000010
gptkb:US_10000008
US_10000009
|
|
gptkbp:isFiledIn
|
gptkb:United_States
|
|
gptkbp:isGranted
|
true
|
|
gptkbp:market
|
High
|