From 9c203989986558b726e6d74661baf4826a75e5f8 Mon Sep 17 00:00:00 2001
From: David Mercier <david9684@gmail.com>
Date: Fri, 4 Dec 2015 18:45:10 +0100
Subject: [PATCH] updated doc

---
 README.rst              | 12 ++++++------
 doc/getting_started.rst |  2 +-
 doc/index.rst           |  7 ++++---
 3 files changed, 11 insertions(+), 10 deletions(-)

diff --git a/README.rst b/README.rst
index 7ec8101..3b802f0 100644
--- a/README.rst
+++ b/README.rst
@@ -11,17 +11,17 @@ Features
 --------
 This Matlab toolbox has been developed to :
 
-- Plot and Analyze nanoindentation dataset with standard deviation;
+- Plot and Analyze nanoindentation dataset with standard deviation ;
 
-- Coefficient of the power law fit of the load-displacement curve;
+- Coefficient of the power law fit of the load-displacement curve ;
 
-- Energy of the loading (area below the load-displacement curve);
+- Energy of the loading (area below the load-displacement curve) ;
 
-- Plot of the Stiffness and the Load/Stiffness² evolution;
+- Plot of the Stiffness and the Load/Stiffness² evolution ;
 
-- Young's modulus and Hardness of bulk materials;
+- Young's modulus and Hardness of bulk materials ;
 
-- Young's modulus and Hardness of a thin film on a substrate or on a multilayer sample (3 layers on a substrate);
+- Young's modulus and Hardness of a thin film on a substrate or on a multilayer sample (3 layers on a substrate) ;
 
 - Generation of a Python script for FEM simulation of indentation test on bulk or multilayer sample with ABAQUS 6.12 to ABAQUS 6.14.
 
diff --git a/doc/getting_started.rst b/doc/getting_started.rst
index d15123b..9440e65 100644
--- a/doc/getting_started.rst
+++ b/doc/getting_started.rst
@@ -58,7 +58,7 @@ First of all a GUI is a Graphical User Interface.
    :scale: 40 %
    :align: center
    
-   *F - ile selector.*
+   *File selector.*
 
 .. figure:: ./_pictures/GUI_Main_Window_Lh_curve.png
    :scale: 40 %
diff --git a/doc/index.rst b/doc/index.rst
index 7416490..140be57 100644
--- a/doc/index.rst
+++ b/doc/index.rst
@@ -16,11 +16,12 @@ The NIMS toolbox has been developed to plot and to analyze (nano)indentation
 data (obtained with conical indenters) for bulk material or multilayer sample.
 
 With this Matlab toolbox, it is possible to :
-    * plot and correct nanoindentation data ;
+    * plot and correct nanoindentation dataset with standard deviation ;
     * calculate the coefficient of the power law fit of the load-displacement curve ;
     * calculate the energy of the loading (area below the load-displacement curve) ;
+	* plot of the stiffness and the load/stiffness² evolution;
     * calculate the Young's modulus and hardness of bulk materials ;
-    * calculate the Young's modulus of thin films on a substrate (for a bilayer or a multilayer sample (until 3 layers on a substrate)) ;
+    * calculate the Young's modulus and hardness of thin films on a substrate (for a bilayer or a multilayer sample (until 3 layers on a substrate)) ;
     * generate Python script of axisymmetrical FEM model for use in ABAQUS (cono-spherical indentation of multilayer sample).
 
 .. figure:: ./_pictures/download.png
@@ -44,7 +45,7 @@ With this Matlab toolbox, it is possible to :
    
 `Download the documentation as a pdf file <https://media.readthedocs.org/pdf/nims/latest/nims.pdf>`_.
    
-.. figure:: ./_pictures/GUI_Main_Window_Efilm_curve.png
+.. figure:: ./_pictures/GUI_Main_Window_Esample_curve.png
    :scale: 50 %
    :align: center