アイテム

• AF TTK 130 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 129 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 128 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 127 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 126 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 125 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 124 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 123 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 122 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 121 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 120 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 119 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 118 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 117 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 116 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 115 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 114 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 113 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 112 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 111 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 110 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 109 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 108 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 107 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).
• AF TTK 106 XRF processing and modelling
  XRF quantitative analysis processed by Olympus Vanta software. "Name" is referred to the shard code with a progressive number indicating different measurements spots. "Note" shows the location of measurement spots. The values of the elements are expressed as a percentage by weight. "LE" means light elements i.e. the amount of elements not detectable (Tatetsuki pottery Vanta chemistry XRF results.xlsx). XRF quantitative analysis processed by Olympus Vanta software converted into oxides: SiO2, Al2O3, Fe2O3, CaO, MgO, K2O and TiO2. The conversion to oxides is obtained by multiplying the weight concentration of the element by a conversion factor derived from the ratio of molecular weight of the chosen oxide divided by the atomic weight of the elements. (Tatetsuki pottery Vanta chemistry XRF oxides results.xlsx).