US patent family 5,530,101
GPTKB entity
Properties (88)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
patent
|
| gptkbp:economicImpact |
cost-effective production.
|
| gptkbp:environmentalImpact |
reduced emissions.
|
| gptkbp:hasAbstract |
A method for producing a high strength steel sheet with improved formability.
|
| gptkbp:hasApplicationNumber |
08/423,123
|
| gptkbp:hasAssignee |
gptkb:Nippon_Steel_Corporation
|
| gptkbp:hasAwards |
network of research institutions.
ISO_9001. |
| gptkbp:hasCitations |
gptkb:US_patent_5,123,456
maintaining ductility. |
| gptkbp:hasClaim |
A method for producing a steel sheet with a tensile strength of at least 590 MPa.
|
| gptkbp:hasClient |
gptkb:US_patent_5,530,103
|
| gptkbp:hasCollaborationsWith |
partnerships with industry leaders.
public-private partnerships. joint research with universities. |
| gptkbp:hasContent |
Improved formability and strength.
high strength and low weight. |
| gptkbp:hasCountry |
gptkb:United_States
|
| gptkbp:hasDescription |
Describes a method for enhancing the strength of steel sheets.
|
| gptkbp:hasExhibition |
tensile testing.
|
| gptkbp:hasFacility |
competition from alternative materials.
balancing cost and performance. specific alloy compositions. |
| gptkbp:hasFeature |
paid.
growth in high strength steel applications. |
| gptkbp:hasFieldOfUse |
metallurgy
|
| gptkbp:hasFilingDate |
1995-04-07
|
| gptkbp:hasFilm |
sustainable steel production.
|
| gptkbp:hasFunding |
government grants.
smart materials. |
| gptkbp:hasGoals |
manufacturing.
transforming steel manufacturing. ASTM_standards. SAE_standards. |
| gptkbp:hasImpactOn |
increased safety in vehicles.
|
| gptkbp:hasInternationalClassification |
C21D 8/12
|
| gptkbp:hasIntersectionsWith |
patent protection.
|
| gptkbp:hasInventor |
gptkb:Toshio_Yamamoto
|
| gptkbp:hasLegalEvent |
patent granted.
|
| gptkbp:hasLegalStatus |
Active
|
| gptkbp:hasLocalCuisine |
enhancing product performance.
sustainability in production. |
| gptkbp:hasParticipatedIn |
influencing steel standards.
|
| gptkbp:hasPartnershipsWith |
market penetration.
licensing opportunities. construction industry. alliances with tech firms. |
| gptkbp:hasPatentNumber |
5,530,101
|
| gptkbp:hasPriorityDate |
2013-04-07
1994-04-08 |
| gptkbp:hasProductLine |
alloying elements
|
| gptkbp:hasPrograms |
heat treatment
|
| gptkbp:hasPublications |
1996-05-28
granted patent. |
| gptkbp:hasRelatedPatent |
gptkb:US_patent_5,530,102
renewable energy sector. process innovation. automotive industry. |
| gptkbp:hasResearchFocus |
nanotechnology in steel.
|
| gptkbp:hasResearchInterest |
controlled cooling
materials science. consumer preferences. advanced steel technologies. developing new processing methods. experimental metallurgy. improving corrosion resistance. |
| gptkbp:hasResidence |
compliance with safety standards.
high strength steel sheet. meeting environmental regulations. |
| gptkbp:hasStaff |
reduced weight of steel components.
|
| gptkbp:hasSustainabilityInitiatives |
recyclable materials.
|
| gptkbp:hasTechnicalField |
steel production
|
| gptkbp:hasTechnology |
scaling production.
advanced metallurgy. new alloy formulations. |
| gptkbp:hasTitle |
Method for producing a high strength steel sheet
|
| gptkbp:hasTouristAttraction |
high strength steel
|
| gptkbp:hasVariants |
collaborative research.
new steel processing technique. |
| https://www.w3.org/2000/01/rdf-schema#label |
US patent family 5,530,101
|
| gptkbp:isCitedBy |
gptkb:US_patent_6,123,883
|
| gptkbp:isPartOf |
US_patent_system
|
| gptkbp:keyIssues |
enhanced mechanical properties.
|
| gptkbp:market |
automotive sector.
emerging markets. global steel market. increased demand for lightweight materials. price volatility. |