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Burduhos-Nergis, Diana P. Phosphate Coatings Suitable For Personal Protective Equipment [[electronic resource].]: Materials Research Forum Llc, 2021. — 1 online resource — <URL:http://elib.fa.ru/ebsco/2697928.pdf>.

Record create date: 12/19/2020

Subject: Phosphate coating.; Protective clothing.

Collections: EBSCO

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Table of Contents

  • Table of Contents
  • Introduction
  • Personal Protective Equipment Against Falls from a Height and its Components
    • 1.1 Personal protective equipment
    • 1.2 Carabiners
      • 1.2.1 History
      • 1.2.2 Areas of use. Classification
      • 1.2.3 Risks and hazards
    • References
  • Materials Used to Manufacture Carabiners
    • 2.1 Materials used to manufacture carabiners
      • 2.1.1 Aluminum alloys - Duralumin
      • 2.1.2 Carbon steels
      • 2.1.3 Stainless steels
      • 2.1.4 Specific characteristics of the materials used to manufacture carabiners
    • 2.2 Carabiner manufacture process
    • 2.3 Carabiner properties
    • References
  • Objectives and Methodology of Experimental Research
    • 3.1 General objectives
    • 3.2 Experimental research methodology
      • 3.2.1 Material used in experimental research
      • 3.2.2 Phosphate coating methodology and technology
      • 3.2.2.1 Degreasing
      • 3.2.2.2 Pickling
      • 3.2.2.3 Rinsing
      • 3.2.2.4 Phosphating
      • 3.2.2.5 Sample rinsing after phosphating
      • 3.2.2.6 Drying
      • 3.2.3 Paint coating technology
    • 3.3 Methods of analysis and equipment used in experimental research
      • 3.3.1 Energy dispersive X-ray spectroscopy (EDX)
      • 3.3.2 Optical microscopy (OM)
      • 3.3.3 Scanning electron microscopy (SEM)
      • 3.3.4 Fourier transform infrared spectroscopy (FTIR)
      • 3.3.5 Determination of mechanical properties by scratch and microindentation tests
      • 3.3.6 Impact test
      • 3.3.7 Corrosion resistance
    • 3.4 Equipments
    • References
  • Structural Characterization of Phosphate Coats
    • 4.1 Determination of the chemical composition of phosphate coats
    • 4.2 Structural characterization of phosphate layers by light microscopy and scanning electron microscopy
    • 4.3 Characterization of phosphate coats by Fourier transform infrared spectroscopy
    • References
  • Mechanical Characterization of Coats
    • 5.1 Determination of mechanical properties by scratch and microindentation tests
      • 5.1.1 Scratch tests
      • 5.1.2 Microindentation test
    • 5.2 Determination of impact resistance
    • References
  • Corrosion Resistance of the Deposited Layers
    • 6.1 Determination of corrosion potential and instantaneous corrosion rate
    • 6.2 Overpotential behavior. Cyclic potentiodynamic polarization
      • 6.2.1 Overpotential behavior of the C45 sample
      • 6.2.2 Overpotential behavior of the I-Zn sample
      • 6.2.3 Overpotential behavior of the II-Zn/Fe sample
      • 6.2.4 Overpotential behavior of the III-Mn sample
      • 6.2.5 Overpotential behavior of the OFU sample
      • 6.2.6 Overpotential behavior of the OFV sample
    • 6.3 Analysis of the structure of the alloy/corrosion medium interface by Electrochemical Impedance Spectroscopy
      • 6.3.1 Theoretical considerations
      • 6.3.2 Experimental results
      • 6.3.2.1 R(QR(LR)) equivalent circuit
      • 6.3.2.2 R(C(R(QR))) equivalent circuit
      • 6.3.2.3 R(Q(R(QR))) equivalent circuit
      • 6.3.2.4 R(C(R(Q(RW)))) equivalent circuit
      • 6.3.2.5 R(Q(R(Q(RW)))) equivalent circuit
      • 6.3.2.6 R(Q(R(Q(RW)))) equivalent circuit
    • References
  • Design and Applications
    • 7.1 Classification
    • 7.2 Properties of the phosphate layer
    • 7.3 Applications of phosphate coating
    • References
  • Linear Polarization Curves in Semi-Logarithmic Coordinates
  • Cyclic Voltamograms in Semilogarithmic Coordinates
  • Nyquist and Body Diagrams for Alloy/Corrosion Environment Systems
  • About the Authors

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