Stephanie M. Murillo Maikut

Slides:

Advertisements

Similar presentations

THE CEMENT MANUFACTURING PROCESS

Advertisements

تم تحميل الملف من

Reference Concrete Sidney Mindess J. Francis Young Prentice-Hall, Inc Chapters 3 and 4.

Chapter 3 Cement.

POZZOLANS (Supplementary Cementitious Materials)

Joe Dralle 4/19/10. Why Concrete? It’s common, it’s everywhere, it’s old Most people don’t know its technical aspects Concrete can be complex Different.

ECDP332 Concrete Technology Faculty of Applied Engineering and Urban Planning Civil Engineering Department Lect. 2 2 nd Semester 2008/2009 UP Copyrights.

Civil Engineering Material

 In the most general sense of the word, a cement is a binder, a substance which sets and hardens independently, and can bind other materials together.

PC Cement Hydration PCC consists of binder and aggregates. Aggregates are typically used in two factions: fines and coarse. The binder phase normally.

CEMENT DEFINITION Cement is often confused with concrete. Cement is a finely ground, usually grey colored mineral powder. When mixed with water, cement.

LECTURE 2 CEMENT.

Glass and Cement ©2009 Dr. B. C. Paul Acknowledgement is given to the following sources, SME Industrial Minerals.

 LAUNCHING OF STUDENT’S CHAPTER UNDER AGIES OF M.E.A.I. AHMEDABAD CHAPTER AND SEMINAR ON MINING AT GOVERNMENT ENGINEERING COLLEGE GANDHINAGAR. ON

LIME. Lime Naturally occurs as: Limestone Lime Chemistry for pure rock: CaCO 3 (calcium carbonate) but, impurities are always present: MgCO 3,Al 2 O.

Basic Informations on Cement and Concrete. You might ask what the two pictures you can see here have in common and how they are related to our problem.

Characterization of fly ash generated from Bakreswar Thermal Power Plant Dr. Arabinda Mondal Department of Silpa-Sadana, PSV, Visva-Bharati, Sriniketan.

CEMENT Prepared by M Sohail saleh M Anees M Zahid Ali Sajjad Shukar Abbas Shukar.

Introduction to Concrete

Cement Replacement Materials. Cement replacement materials or mineral admixtures are materials used to contribute to the properties of hardened concrete.

The Challenges and Successes of Creating an Environmentally Sustainable Cement Industry in East Africa Presented by: Kephar L Tande Chair, EA Cement Producers.

By Engr. Prof. Dr. Attaullah Shah

Subject: Cement Types and Characteristics of Cements

Lime Stabilization Daniel Puiatti March 2O th, Lime : Definitions – Properties – Applications 2.Treatment Techniques in.

CE-303 Lecture # 2 Manufacturing of Portland Cement Prepared by: Dr. Salah Al-Dulaijan.

KING SAUD UNIVERSITY COLLEGE OF ENGINEERING CIVIL ENGINEERING DEPARTMENT Students Names: Abdulrahman Albedah Ali Al-theeb CE-477 Supplementary.

Cement. Ordinary Portland cement is obtained by mixing of calcareous materials (such as limestone /chalk) & argillacious material (clay/shale containing.

Concrete Making Materials - I Cement. What is cement Manufacturing of Cement Composition and constituent of cement Types of cement Tests on Cement.

Let’s Review Our Homework Chapter 3, Section 2 Review, # 2, 4, 5 2)What is the difference between intrusive and extrusive rocks? Give an example of each.

Limestone as an Industrial Mineral Kwaku Boakye Mineral Engineering Department and Bureau of Geology New Mexico Institute of Mining and Technology February.

Mining and related Issues Chapter 14 Lecture #3 Sections

GEOLOGY, MINING, AND MARKETING OF THE INDUSTRIAL MINERALS Virginia McLemore and James Barker.

Portland Cements I. Types of Cements 1. pozzolana and pozzolanic cements ( 火山灰水泥） 2. blastfurnace slag cements （炉渣水泥） 3. high-alumina cements ( 高矾土水泥）

WHAT IS CEMENT???  A cement is a binder, a substance that sets and hardens independently, and can bind other materials togetherbinder  It was 1 st introduced.

PRESENTATION ON CEMENTS. ....MADE BY…. HARSH PALIWAL  Roll no.:- 13/IEC/013 MANIK GUPTA  Roll no.:- 13/IEC/017.

Element Elements and Compounds Compounds of Calcium Structure of Atom Compounds A compound is a substance composed of two or more elements, chemically.

Guanzon Kilat.  Cement is a fine, soft, powdery-type substance. It is made from a mixture of elements that are found in natural materials such as limestone,

Ruth Allington 1 How to make cement-raw material requirements RUTH ALLINGTON.

Cement and Concrete History History Composition Composition Testing Testing Key Terms Key Terms.

Supplementary Cementitious Materials Design and Control of Concrete Mixtures – Chapter 4.

CEMENT SAL Engineering.

CVL 2407 Faculty of Applied Engineering and Urban Planning Civil Engineering Department 2 nd Semester 2013/2014 Dr. Eng. Mustafa Maher Al-tayeb.

C OMPOSITION OF C ONCRETE By: o Rushi Patel-D14CL04 o Naresh Prajapati-D14CL01.

An evaluation and suggestion for a sustainable concrete industry

CONSTRUCTION MATERIALS and CONCRETE

CVL 2407 Faculty of Applied Engineering and Urban Planning Civil Engineering Department 2 nd Semester 2013/2014 Dr. Eng. Mustafa Maher Al-tayeb.

CY6251 : Engineering Chemistry II Unit 4 : Engineering Materials - Cement (C) Dept of Applied Chemistry - SVCE1.

What Is CEMENT? The word Cement has come from the Roman word

Materials of Construction Dr. TALEB M. AL-ROUSAN

POZZOLANS (Supplementary Cementitious Materials)

Limestone as an Industrial Mineral

BUILDING MATERIALS & CONSTRUCTION UNIT -1 LECTURE SERIES: CEMENT

Introduction to Concrete

Industrial byproducts

NITTE MEENAKSHI INSTITUTE OF TECHNOLOGY YEHALANKA, BANGALORE

Prof. Mayur M. Maske HoD Civil Engineering(Diploma) RIT, Rajaramnagar

Cement NAME:SAFA AL FAHDI NAME:BBADOUR AL UMAIRI.

TOPIC INCLUDES- STONE BRICK LIME.

BUILDING STONES A Natural material of construction which is obtained from by suitable method is called a stone. The stone which is used for the construction.

Cement: Cement is the mixture of calcareous, siliceous, argillaceous and other substances. Cement is used as a binding material in mortar, concrete,

By Engr. Prof. Dr. Attaullah Shah

Advanced Placement Environmental Science

Introduction to concrete

Introduction to concrete Definition of Concrete: Concrete is a mixture of cement, Aggregates (fine +coarse), water and air. Portland cement, water, sand,

Analysis of the market demand for sand aggregate.

Presentation transcript:

Stephanie M. Murillo Maikut CEMENT http://www.tancem.com/images/inner/projects/gemini.jpg Stephanie M. Murillo Maikut http://www.math.lsu.edu/~bogdan/photo-albums/poland-poznan/square-town-houses.jpg

INTRODUCTION Definition: “Cement is a crystalline compound of calcium silicates and other calcium compounds having hydraulic properties” (Macfadyen, 2006).

History Lime and clay have been used as cementing material on constructions through many centuries. Romans are commonly given the credit for the development of hydraulic cement, the most significant incorporation of the Roman’s was the use of pozzolan-lime cement by mixing volcanic ash from the Mt. Vesuvius with lime. Best know surviving example is the Pantheon in Rome In 1824 Joseph Aspdin from England invented the Portland cement (http://www.holcim.com/NZ/EN/id/71772/mod/gnm20/page/editorial.htm) (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf) http://www.artchive.com/artchive/r/roman/roman_pantheon.jpg

Types of Cement Cements are considered hydraulic because of their ability to set and harden under or with excess water through the hydration of the cement’s chemical compounds or minerals There are two types: Those that activate with the addition of water And pozzolanic that develop hydraulic properties when the interact with hydrated lime Ca(OH)2 Pozzolanic: any siliceous material that develops hydraulic cementitious properties when interacted with hydrated lime. HYDRAULIC CEMENTS: Hydraulic lime: Only used in specialized mortars. Made from calcination of clay-rich limestones. Natural cements: Misleadingly called Roman. It is made from argillaceous limestones or interbedded limestone and clay or shale, with few raw materials. Because they were found to be inferior to portland, most plants switched. (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf)

Portland cement: Artificial cement Portland cement: Artificial cement. Made by the mixing clinker with gypsum in a 95:5 ratio. Portland-limestone cements: Large amounts (6% to 35%) of ground limestone have been added as a filler to a portland cement base. Blended cements: Mix of portland cement with one or more SCM (supplementary cemetitious materials) like pozzolanic additives. Pozzolan-lime cements: Original Roman cements. Only a small quantity is manufactured in the U.S. Mix of pozzolans with lime. Masonry cements: Portland cement where other materials have been added primarily to impart plasticity. Aluminous cements: Limestones and bauxite are the main raw materials. Used for refractory applications (such as cementing furnace bricks) and certain applications where rapid hardening is required. It is more expensive than portland. There is only one producing facility in the U.S. (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf) (Macfadyen, 2006).

GEOLOGY (RAW MATERIALS) The fundamental chemical compounds to produce cement clinker are: Lime (CaO) Silica (SiO2) Alumina (Al2O3) Iron Oxide (Fe2O3) Raw materials used in the production of clinker cement Fly ash: by-product of burning finely grounded coal either for industrial application or in the production of electricity (Macfadyen, 2006) (Hoffman, 2006)

Clinker compounds in Type I portland cement (Macfadyen, 2006) www.recycleworks.org/images/flyash_concrete.gif

SOURCES OF CaCO3 Sedimentary deposits of marine origin (limestone) Marble (metamorphosed limestone) Chalk Marl Coral Aragonite Oyster and clam shells Travertine Tuff LIMESTONES Originate from the biological deposition of shells and skeletons of plants and animals. Massive beds accumulated over millions of years. In the cement industry limestone includes calcium carbonate and magnesium carbonate. Most industrial quality limestones is of biological origin. The ideal cement rock 77 to 78% CaCO3, 14% SiO2, 2.5% Al2O3, and 1.75% FeO3. Limestone with lower content of CaCO3 and higher content of alkalis and magnesia requires blending with high grade limestone (Macfadyen, 2006) (Kussmaul, 2003) http://en.wikipedia.org/wiki/Image:Limestoneshale7342.jpg

SOURCES OF ARGILLACEOUS MINERALS Argillaceous mineral resources: Clay and shale for alumina and silica Iron ore for iron Other natural sources of silica are and alumina are: Loess, silt, sandstone, volcanic ash, diaspore, diatomite, bauxite Shales, mudstones, and sandstones are typically interbedded with the limestone and were deposited as the inland waters and oceans covered the land masses. Clays are typically younger surface deposits (Macfadyen, 2006) http://en.wikipedia.org/wiki/Image:ShaleUSGOV.jpg

MARKETING Wide distribution of plants minimizes the cost to customers. In any market even though cement must meet certain specifications there are other factors that dominate, such as: Delivered cost Quality Product consistency Technical assistance and Sales relationship with the user companies Factors that drive the consumption of cement in the marketplace Economic growth Private and governmental capital investment Population growth (Macfadyen, 2006)

MINING METHODS Limestone deposits are mainly extracted by bench mining in which holes are charged with ammonium nitrate and fuel oil explosive and blasted The rock is excavated with front end loaders (10 m3 capacity) and loaded into 70 to 90 tons haul trucks and then transported to the primary crusher Marl and chalk normally do not require blasting. A trend is to use in pit moveable primary crushers and belt conveyors to transport the rock to a fixed secondary crusher, thereby reducing the number of trucks and haulage distance Underground mining of limestones is not typical, in the U.S one plant obtains its limestone from underground operation, using room and pillar mining method. Clay and shale normally extracted using front end loaders and loaded into haul trucks. When they occur as overburden the clays and shales not used are stored and often reused for reclamation in the mined out areas of the quarry (Macfadye, 2006) http://www.heta4.com/imagesandgraphics/images/frontendloader.gif

PROCESSING

(Macfadyen, 2006)

USES Uses Main use is in the fabrication of concrete and mortars Modern uses Building (floors, beams, columns, roofing, piles, bricks, mortar, panels, plaster) Transport (roads, pathways, crossings, bridges, viaducts, tunnels, parking, etc.) Water (pipes, drains, canals, dams, tanks, pools, etc.) Civil (piers, docks, retaining walls, silos, warehousing, poles, pylons, fencing) Agriculture (buildings, processing, housing, irrigation) (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf) (http://www.holcim.com/NZ/EN/id/71772/mod/gnm20/page/editorial.html) (http://en.wikipedia.org/wiki/Mortar_%28masonry%29) http://www.wpclipart.com/working/construction/concrete_block.png http://irandaily.ir/1383/2116/html/005991.jpg

SUBSTITUTES It competes in the construction industry with concrete substitutes: Alumina Asphalt Clay brick Fiberglass Glass Steel Stone Wood Some materials like fly ash and ground granulated furnace slugs have good hydraulic properties and are being used as partial substitutes for portland cement in some concrete applications (http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs07.pdf)

Data in thousand metric tons PRODUCTION Data in thousand metric tons http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs06.pdf

http://minerals. usgs. gov/minerals/pubs/commodity/cement/cemenmcs07 http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs07.pdf

World production of hydraulic cement by region (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf).

U.S production and consumption of portland cement (http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf)

RESOURCES Although individual company reserves are subject to exhaustion, cement raw materials (especially limestone) are widespread and abundant, and overall shortages are unlikely in the future (http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs07.pdf)

REFERENCES Hoffman, G., 2006: Pozzolans and supplementary cementitious materials. Pages 1161-1172 in Industrial Minerals and Rocks 7th edition. Edited by J.E. Kogel, N.C., Trivedi, J.M. Barker & S.T. Krudowski. Littleton, Colorado: SME Macfadyen, J.D., 2006: Cement and cement raw materials. Pages 1121-1136 in Industrial Minerals and Rocks 7th edition. Edited by J.E. Kogel, N.C., Trivedi, J.M. Barker & S.T. Krudowski. Littleton, Colorado: SME http://www.holcim.com/NZ/EN/id/71772/mod/gnm20/page/editorial.htm Consulted April 2007 http://pubs.usgs.gov/of/2005/1152/2005-1152.pdf Consulted April 2007 http://www.artchive.com/artchive/r/roman/roman_pantheon.jpg Consulted April 2007 http://www.recycleworks.org/images/flyash_concrete.gif Consulted April 2007 http://en.wikipedia.org/wiki/Image:Limestoneshale7342.jpg Consulted April 2007 http://en.wikipedia.org/wiki/Image:ShaleUSGOV.jpg Consulted April 2007 http://www.heta4.com/imagesandgraphics/images/frontendloader.gif Consulted April 2007 http://en.wikipedia.org/wiki/Mortar_%28masonry%29 Consulted April 2007 http://www.wpclipart.com/working/construction/concrete_block.png Consulted April 2007 http://irandaily.ir/1383/2116/html/005991.jpg Consulted April 2007 http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs06.pdf Consulted April 2007\ http://minerals.usgs.gov/minerals/pubs/commodity/cement/cemenmcs07.pdf Consulted April 2007