diff --git a/README.md b/README.md
index aada06b94c6a6b59d63c12bf559c3cddf182adea..492bfb26669feffd865e020dc1fbe7e592aa3bc1 100644
--- a/README.md
+++ b/README.md
@@ -165,7 +165,18 @@ I designed the AS5013 daughter boards, using it as a chance to try the new integ
 <img src='as5013-node/as5013-eagle.png' width=360px>
 <img src='as5013-node/as5013-fusion.png' width=600px>
 
-I'm sending out for a run of these boards which should allow me to experiment with calibration and measurement, both for the 6 DOF configuration, as well as others.
+I sent out for a run of these boards which should allow me to experiment with calibration and measurement, both for the 6 DOF configuration, as well as others.  The first image below shows four of these PCBs, soldered and arranged on a cnc machined body.  The second image shows one of the two flexure plates in place.  The last image shows the main pcb which sits on top, contacting the daughter boards through spring pin connectors, which allow for individual adjustment of their positions.
+
+<img src='v2/body-with-pins.jpg' height=300px>
+<img src='v2/body-with-flexure.jpg' height=300px>
+<img src='v2/body-with-main-pcb.jpg' height=300px>
+
+I did another bit of machining to turn out a few loadcell bodies and magnet carriers.  I'm happy with the toolpaths for these parts, so it should make it fast and easy to make additional versions with minor edits.
+
+<img src='v2/body-and-carrier.jpg' height=300px>
+
+Next step is dialing in the flexure plates and producing them.  I'm not thrilled with the edge quality of the laser cut versions, so I think I may EDM them after all.  I'll design in over-travel limits to these to keep the flexures in their elastic range.
+
 
 ### Torque Cell