Upload new images. The image library for this site will open in a new window.
Upload new documents. The document library for this site will open in a new window.
Show web part zones on the page. Web parts can be added to display dynamic content such as calendars or photo galleries.
Choose between different arrangements of page sections. Page layouts can be changed even after content has been added.
Open the Navigation Management window, which can be used to view the full current branch of the menu tree, and edit it.
Move this whole section down, swapping places with the section below it.
Check for and fix problems in the body text. Text pasted in from other sources may contain malformed HTML which the code cleaner will remove.
Accordion feature turned off, click to turn on.
Accordion featurd turned on, click to turn off.
Change the way the image is cropped for this page layout.
Cycle through size options for this image or video.
Align the media panel to the right/left in this section.
Open the image pane in this body section. Click in the image pane to select an image from the image library.
Open the video pane in this body section. Click in the video pane to embed a video. Click ? for step-by-step instructions.
Remove the image from the media panel. This does not delete the image from the library.
Remove the video from the media panel.
Just wanted to post this as although it's just at the stage of research it's interesting. It's using a thin layer of Graphene to protect artwork from degradation:
Move this whole section up, swapping places with the section above it.
Interesting. I am sure that much more testing needs to be
done before recommending such a procedure. Certainly, one would need to wait a
very long time before depositing a film like this on an oil layer since its impermeability
to oxygen (if that is truly possible in a real-world scenario) would mean that
no further oxidation could occur in the paint film.
This reminds me of a conversation I had with a real maverick
in my field about the possibility of using a plasma to fluoride a surface (they were
speaking about acrylic dispersion paints) to make it basically impervious to water
related problems. Sounds good at the outset but who knows what unforeseen consequences
could occur in the future.
Thank you for sharing this link. Very interesting indeed. It
looks like they use a modified laminator – so possibly only very flat and not
temperature sensitive materials could be coated with this method at present. But an interesting start.