
Paul Heyrana
Examiner (ID: 12689)
| Most Active Art Unit | 3204 |
| Art Unit(s) | 3204, 2899, 3207 |
| Total Applications | 1067 |
| Issued Applications | 982 |
| Pending Applications | 0 |
| Abandoned Applications | 85 |
Applications
| Application number | Title of the application | Filing Date | Status |
|---|---|---|---|
Array
(
[id] => 9676071
[patent_doc_number] => 08814980
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2014-08-26
[patent_title] => 'Method of recovering metal values from nickel-containing ores'
[patent_app_type] => utility
[patent_app_number] => 13/200782
[patent_app_country] => US
[patent_app_date] => 2011-09-30
[patent_effective_date] => 0000-00-00
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[patent_current_assignee] =>[type] => patent
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13200782
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/200782 | Method of recovering metal values from nickel-containing ores | Sep 29, 2011 | Issued |
Array
(
[id] => 10608372
[patent_doc_number] => 09328395
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2016-05-03
[patent_title] => 'Method and apparatus for producing direct reduced iron utilizing a source of reducing gas comprising hydrogen and carbon monoxide'
[patent_app_type] => utility
[patent_app_number] => 13/824648
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/824648 | Method and apparatus for producing direct reduced iron utilizing a source of reducing gas comprising hydrogen and carbon monoxide | Sep 27, 2011 | Issued |
Array
(
[id] => 8663911
[patent_doc_number] => 08377371
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2013-02-19
[patent_title] => 'System and method for producing metallic iron'
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[patent_app_number] => 13/245653
[patent_app_country] => US
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/245653 | System and method for producing metallic iron | Sep 25, 2011 | Issued |
Array
(
[id] => 8332261
[patent_doc_number] => 20120198965
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-08-09
[patent_title] => 'METHOD OF MANUFACTURING FE AND NI CONTAINING MATERIAL, FERRONICKEL MASS USING THE FE AND NI CONTAINING MATERIAL AND METHOD FOR MANUFACTURING THE FERRONICKEL MASS'
[patent_app_type] => utility
[patent_app_number] => 13/245253
[patent_app_country] => US
[patent_app_date] => 2011-09-26
[patent_effective_date] => 0000-00-00
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[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13245253
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/245253 | Method of manufacturing Fe and Ni containing material, ferronickel mass using the Fe and Ni containing material and method for manufacturing the ferronickel mass | Sep 25, 2011 | Issued |
Array
(
[id] => 9258640
[patent_doc_number] => 20130340569
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-12-26
[patent_title] => 'METHOD FOR THE MELTING OF NEAR-BETA TITANIUM ALLOY CONSISTING OF (4.0-6.0)% AL - (4.5-6.0)% MO - (4.5-6.0)% V - (2.0-3.6)% CR, (0.2-0.5)% FE - (0.1-2.0)% ZR'
[patent_app_type] => utility
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[patent_app_date] => 2011-09-23
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[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13876025
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/876025 | Method for the melting of near-beta titanium alloy consisting of (4.0-6.0) wt % Al-(4.5-6.0) wt % Mo-(4.5-6.0) wt % V-(2.0-3.6) wt % Cr-(0.2-0.5) wt % Fe-(0.1-2.0) wt % Zr | Sep 22, 2011 | Issued |
Array
(
[id] => 8421047
[patent_doc_number] => 08277535
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[patent_issue_date] => 2012-10-02
[patent_title] => 'Method for producing porous metal body, porous aluminum body, battery electrode material including porous metal body or porous aluminum body, and electrode material for electrical double layer capacitor'
[patent_app_type] => utility
[patent_app_number] => 13/236041
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/236041 | Method for producing porous metal body, porous aluminum body, battery electrode material including porous metal body or porous aluminum body, and electrode material for electrical double layer capacitor | Sep 18, 2011 | Issued |
Array
(
[id] => 9073821
[patent_doc_number] => 08551397
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2013-10-08
[patent_title] => 'Process for manufacturing steel blanks'
[patent_app_type] => utility
[patent_app_number] => 13/231847
[patent_app_country] => US
[patent_app_date] => 2011-09-13
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[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 13231847
[rel_patent_id] =>[rel_patent_doc_number] =>) 13/231847 | Process for manufacturing steel blanks | Sep 12, 2011 | Issued |
Array
(
[id] => 8689247
[patent_doc_number] => 08388771
[patent_country] => US
[patent_kind] => B2
[patent_issue_date] => 2013-03-05
[patent_title] => 'High strength steel sheet having excellent formability'
[patent_app_type] => utility
[patent_app_number] => 13/225920
[patent_app_country] => US
[patent_app_date] => 2011-09-06
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/225920 | High strength steel sheet having excellent formability | Sep 5, 2011 | Issued |
Array
(
[id] => 8656040
[patent_doc_number] => 20130036869
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-02-14
[patent_title] => 'METHOD FOR PRODUCING ALUMINUM BY MEANS OF METALLOTHERMIC RECOVERY OF ALUMINUM TRICHLORIDE WITH MAGNESIUM AND A DEVICE FOR ITS REALIZATION'
[patent_app_type] => utility
[patent_app_number] => 13/641725
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/641725 | METHOD FOR PRODUCING ALUMINUM BY MEANS OF METALLOTHERMIC RECOVERY OF ALUMINUM TRICHLORIDE WITH MAGNESIUM AND A DEVICE FOR ITS REALIZATION | Sep 5, 2011 | Abandoned |
Array
(
[id] => 7705045
[patent_doc_number] => 20120000318
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2012-01-05
[patent_title] => 'HIGH TEMPERATURE HEAP BIOLEACHING PROCESS'
[patent_app_type] => utility
[patent_app_number] => 13/226450
[patent_app_country] => US
[patent_app_date] => 2011-09-06
[patent_effective_date] => 0000-00-00
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/226450 | HIGH TEMPERATURE HEAP BIOLEACHING PROCESS | Sep 5, 2011 | Abandoned |
Array
(
[id] => 9050005
[patent_doc_number] => 20130247719
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2013-09-26
[patent_title] => 'HEAP LEACHING'
[patent_app_type] => utility
[patent_app_number] => 13/819417
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/819417 | Heap leaching | Sep 4, 2011 | Issued |
Array
(
[id] => 9963967
[patent_doc_number] => 09011574
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[patent_kind] => B2
[patent_issue_date] => 2015-04-21
[patent_title] => 'Method for leaching of copper and molybdenum'
[patent_app_type] => utility
[patent_app_number] => 13/819148
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/819148 | Method for leaching of copper and molybdenum | Aug 28, 2011 | Issued |
Array
(
[id] => 9302810
[patent_doc_number] => 20140041485
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[patent_title] => 'PROCESS FOR MAGNESIUM PRODUCTION'
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/818788 | Process for magnesium production | Aug 24, 2011 | Issued |
Array
(
[id] => 9725101
[patent_doc_number] => 20140260803
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[patent_kind] => A1
[patent_issue_date] => 2014-09-18
[patent_title] => 'PROCESS FOR PRODUCING DIRECT REDUCED IRON (DRI) UTILIZING GASES DERIVED FROM COAL'
[patent_app_type] => utility
[patent_app_number] => 14/240013
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[rel_patent_id] =>[rel_patent_doc_number] =>) 14/240013 | Process for producing direct reduced iron (DRI) utilizing gases derived from coal | Aug 19, 2011 | Issued |
Array
(
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[patent_title] => 'METHOD AND APPARATUS FOR CARRYING OUT A METALLURGICAL PROCESS'
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[rel_patent_id] =>[rel_patent_doc_number] =>) 13/210479 | METHOD AND APPARATUS FOR CARRYING OUT A METALLURGICAL PROCESS | Aug 15, 2011 | Abandoned |
Array
(
[id] => 7565004
[patent_doc_number] => 20110285067
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2011-11-24
[patent_title] => 'METHOD FOR PRODUCING LIQUID PIG IRON OR LIQUID STEEL INTERMEDIATE PRODUCTS FROM FINE-PARTICLED MATERIAL CONTAINING IRON OXIDE'
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Array
(
[id] => 8646524
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[patent_title] => 'Crucible Materials For Alloy Melting'
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Array
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Array
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Array
(
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