{"@type": "dcat:Dataset", "DOI": "10.15121/1409668", "accessLevel": "public", "bureauCode": ["019:20"], "contactPoint": {"@type": "vcard:Contact", "fn": "Tatiana Pyatina", "hasEmail": "mailto:tpyatina@bnl.gov"}, "dataQuality": true, "description": "The data set shows performance of economical calcium phosphate cement (Fondu) blended with fly ash, class F (FAF) in carbon steel corrosion protection tests (corrosion rate, corrosion current and potential), bond- and matrix strength, as well as matrix strength recovery after imposed damage at 300C. The corrosion protection and lap-shear bond strength data are given for different Fondu/FAF ratios, the matrix strength data recoveries are reported for 60/40 weight % Fondu/FAF ratios. Effect of sodium phosphate on bond strength, corrosion protection and self-healing is demonstrated.", "distribution": [{"@type": "dcat:Distribution", "accessURL": "https://gdr.openei.org/files/978/Corrosion%20and%20mechanical%20%20property%20CaP-Fondu.JNB", "description": "Economical chemical cement tested for carbon steel corrosion protection, bond strength and matrix self-healing", "format": "JNB", "mediaType": "application/octet-stream", "title": "Corrosion and Mechanical Properties of Calcium-Phosphate-Based Cements.JNB"}, {"@type": "dcat:Distribution", "accessURL": "https://gdr.openei.org/submissions/967", "description": "The data files included in this separate GDR submission summarize the results from various experiments testing properties of high-temperature self-healing inorganic cement composites. These properties include cement-carbon steel bond strength, Young's modulus recovery, matrix recovery strength, and compressive strength and Yonug's modulus for cement composites modified with Pozzolanic Clay additives.", "format": "HTML", "mediaType": "text/html", "title": "Other Cement Composite Experiments"}], "identifier": "https://data.openei.org/submissions/7143", "issued": "2017-09-26T06:00:00Z", "keyword": ["carbon steel corrosion", "casing", "composite", "corrosion protection", "corrosion rate", "energy", "experiment", "geothermal", "high temp", "high temperature", "high-temp", "integrity", "self-healing", "wellbore"], "landingPage": "https://gdr.openei.org/submissions/978", "license": "https://creativecommons.org/licenses/by/4.0/", "modified": "2021-07-08T19:34:30Z", "programCode": ["019:006"], "projectLead": "Eric Hass", "projectNumber": "FY17 AOP 3216", "projectTitle": "Self-healing and Re-Adhering Cements with Improved Toughness at Casing and Formation Interfaces for Geothermal Wells", "publisher": {"@type": "org:Organization", "name": "Brookhaven National Laboratory"}, "spatial": "{\"type\":\"Polygon\",\"coordinates\":[[[-117.6730515625,35.2279],[-112.8941,35.2279],[-112.8941,39.904895132352],[-117.6730515625,39.904895132352],[-117.6730515625,35.2279]]]}", "title": "Chemical, Calcium Phosphate Cements for Geothermal Wells - Corrosion Protection, Bond Strength and Matrix Self-Healing"}