View allAll Photos Tagged troubleshooting
If you know what's wrong with this camera, please comment below.
Each photo focused on the center circle in the test chart.
Mirror was locked up before each shot.
Aperture left to right f/2.8, f/5.6 & f/16
Camera seems to be focusing behind the target. I suspect an issue with the registration distance to the focusing screen.
Film stock: Kodak Vision 2383 Color Cine Print Film
ISO: 3-6
Format: 135
Camera: Zenza Bronica EC 6x6 camera
Lens: Nikkor 75mm F2.8
Developer: Caffenol C-L (minus restrainer)
Time: 35 min @ 20 degC semi-stand
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
To me anyway! This is the very first wet plate image I have made at home. My eldest daughter kindly sat patiently although she was itching to go ice skating...I think I owe her some chocolate :-)
I am having some initial problems as all the plates which I did last Sunday are pale and fogged (I rescued this using the software which came with our scanner). However, troubleshooting is all part of the process and I won't give up!
Testing, Testing, ... BANG!!!
Nondestructive testing
Nondestructive testing or Non-destructive testing (NDT) is a wide group of analysis techniques used in science and industry to evaluate the properties of a material, component or system without causing damage.[1] The terms Nondestructive examination (NDE), Nondestructive inspection (NDI), and Nondestructive evaluation (NDE) are also commonly used to describe this technology.[2] Because NDT does not permanently alter the article being inspected, it is a highly valuable technique that can save both money and time in product evaluation, troubleshooting, and research. Common NDT methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), eddy-current testing,[1] and low coherence interferometry.[3][4] NDT is commonly used in forensic engineering, mechanical engineering, petroleum engineering, electrical engineering, civil engineering, systems engineering, aeronautical engineering, medicine, and art.[1] Innovations in the field of nondestructive testing have had a profound impact on medical imaging, including on echocardiography, medical ultrasonography, and digital radiography.
Methods[edit]
NDT methods may rely upon use of electromagnetic radiation, sound, and inherent properties of materials to examine samples. This includes some kinds of microscopy to examine external surfaces in detail, although sample preparation techniques for metallography, optical microscopy and electron microscopy are generally destructive as the surfaces must be made smooth through polishing or the sample must be electron transparent in thickness. The inside of a sample can be examined with penetrating radiation, such as X-rays, neutrons or terahertz radiation. Sound waves are utilized in the case of ultrasonic testing. Contrast between a defect and the bulk of the sample may be enhanced for visual examination by the unaided eye by using liquids to penetrate fatigue cracks. One method (liquid penetrant testing) involves using dyes, fluorescent or non-fluorescent, in fluids for non-magnetic materials, usually metals. Another commonly used NDT method used on ferrous materials involves the application of fine iron particles (either liquid or dry dust) that are applied to a part while it is in an externally magnetized state (magnetic-particle testing). The particles will be attracted to leakage fields within the test object, and form on the objects surface. Magnetic particle testing can reveal surface & some sub-surface defects within the part. Thermoelectric effect (or use of the Seebeck effect) uses thermal properties of an alloy to quickly and easily characterize many alloys. The chemical test, or chemical spot test method, utilizes application of sensitive chemicals that can indicate the presence of individual alloying elements. Electrochemical methods, such as electrochemical fatigue crack sensors, utilize the tendency of metal structural material to oxidize readily in order to detect progressive damage.
Analyzing and documenting a non-destructive failure mode can also be accomplished using a high-speed camera recording continuously (movie-loop) until the failure is detected. Detecting the failure can be accomplished using a sound detector or stress gauge which produces a signal to trigger the high-speed camera. These high-speed cameras have advanced recording modes to capture some non-destructive failures.[5] After the failure the high-speed camera will stop recording. The capture images can be played back in slow motion showing precisely what happen before, during and after the non-destructive event, image by image.
Moulding defect:
Splay marks
Alternative name:
Splash mark or silver streaks
Description:
Usually appears as silver streaks along the flow pattern, however depending on the type and color of material it may represent as small bubbles caused by trapped moisture.
Causes:
Moisture in the material, usually when hygroscopic resins are dried improperly. Trapping of gas in "rib" areas due to excessive injection velocity in these areas. Material too hot, or is being sheared too much.
en.wikipedia.org/wiki/Injection_moulding#Process_troubles...
Testing, Testing, ... BANG!!!
Nondestructive testing
Nondestructive testing or Non-destructive testing (NDT) is a wide group of analysis techniques used in science and industry to evaluate the properties of a material, component or system without causing damage.[1] The terms Nondestructive examination (NDE), Nondestructive inspection (NDI), and Nondestructive evaluation (NDE) are also commonly used to describe this technology.[2] Because NDT does not permanently alter the article being inspected, it is a highly valuable technique that can save both money and time in product evaluation, troubleshooting, and research. Common NDT methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), eddy-current testing,[1] and low coherence interferometry.[3][4] NDT is commonly used in forensic engineering, mechanical engineering, petroleum engineering, electrical engineering, civil engineering, systems engineering, aeronautical engineering, medicine, and art.[1] Innovations in the field of nondestructive testing have had a profound impact on medical imaging, including on echocardiography, medical ultrasonography, and digital radiography.
Methods[edit]
NDT methods may rely upon use of electromagnetic radiation, sound, and inherent properties of materials to examine samples. This includes some kinds of microscopy to examine external surfaces in detail, although sample preparation techniques for metallography, optical microscopy and electron microscopy are generally destructive as the surfaces must be made smooth through polishing or the sample must be electron transparent in thickness. The inside of a sample can be examined with penetrating radiation, such as X-rays, neutrons or terahertz radiation. Sound waves are utilized in the case of ultrasonic testing. Contrast between a defect and the bulk of the sample may be enhanced for visual examination by the unaided eye by using liquids to penetrate fatigue cracks. One method (liquid penetrant testing) involves using dyes, fluorescent or non-fluorescent, in fluids for non-magnetic materials, usually metals. Another commonly used NDT method used on ferrous materials involves the application of fine iron particles (either liquid or dry dust) that are applied to a part while it is in an externally magnetized state (magnetic-particle testing). The particles will be attracted to leakage fields within the test object, and form on the objects surface. Magnetic particle testing can reveal surface & some sub-surface defects within the part. Thermoelectric effect (or use of the Seebeck effect) uses thermal properties of an alloy to quickly and easily characterize many alloys. The chemical test, or chemical spot test method, utilizes application of sensitive chemicals that can indicate the presence of individual alloying elements. Electrochemical methods, such as electrochemical fatigue crack sensors, utilize the tendency of metal structural material to oxidize readily in order to detect progressive damage.
Analyzing and documenting a non-destructive failure mode can also be accomplished using a high-speed camera recording continuously (movie-loop) until the failure is detected. Detecting the failure can be accomplished using a sound detector or stress gauge which produces a signal to trigger the high-speed camera. These high-speed cameras have advanced recording modes to capture some non-destructive failures.[5] After the failure the high-speed camera will stop recording. The capture images can be played back in slow motion showing precisely what happen before, during and after the non-destructive event, image by image.
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Protected photo **
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photos belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
Facebook is being sued by the City of Houston, Texas USA (832)987-3801
James Partsch-Galvan Sun, Jan 24, 2016 at 2:35 PM
To: Roll Call Morning News , James Partsch-Galvan , The Motley Fool , Michael Quinn Sullivan , Media Research Center , Jeff Merkley
I pray to Jesus that the motherfucker who reported me and my post and the person who took action against me and my campaign for US Congress 29th Texas District are arrested and sent to concentration camps for Communications Terrorism against a candidate and servant from Houston, Texas USA (832)987-3801 James
This Feature is Temporarily Blocked
.
You recently posted something that violates Facebook policies, so you're temporarily blocked from using this feature. For more information, visit the Help Center.
To keep from getting blocked again, please make sure you've read and understand Facebook's Community Standards.
The block will be active for 28 days and 6 hours more.
If you think you're seeing this by mistake, please let us know.
•Pages Basics
•Managing a Page◦Getting Started
◦Basic Information◾Basic Page Information
◾Username
◾Profile Picture & Cover Photo
◾Tabs & Apps
◾Back
◦Settings
◦Page Roles
◦Moderation
◦Publishing
◦Messaging
◦Growing Your Audience◾Reach More People
◾Back
◦Page Insights◾About Page Insights
◾Getting Started & General Page Metrics
◾Page Post Metrics
◾Likes, Reach & Engagement
◾Back
◦Pages Manager App
◦Facebook Wi-Fi
◦Facebook Bluetooth® Beacons
◦Policy Questions
◦Troubleshooting
◦Pages Glossary
◦Back
•Interacting with Pages◦Finding & Liking Pages
◦Interacting With Pages
◦Privacy and Reporting
◦Back
•Back
•Ads
•Facebook Mobile•Facebook Mobile Apps◦Facebook for iPhone
◦Facebook for iPad
◦Facebook for Android
◦Facebook for Every Phone
◦Facebook for Windows Phone
◦Messenger
◦Pages Manager App
◦Messenger for Apple Watch
◦Back
•Facebook Mobile Site (m.facebook.com)
•Facebook for Mobile Operators
•Facebook Texts
•Troubleshooting
•Home◦Home Settings & Security
◦Back
•Back
•Popular Features•Groups◦Group Basics
◦Group Admin Basics
◦Group Features
◦Groups for Schools
◦Using Dropbox in Groups
◦Group Privacy & Abuse
◦Troubleshooting
◦Back
•Search◦Search Basics
◦Search Privacy
◦Bugs & Known Issues
◦Back
•Events◦Creating & Editing Events
◦Viewing & Responding to Events
◦Event Tagging
◦Celebrations
◦Events Privacy
◦Sharing & Promoting Events
◦Back
•Notifications◦Notification Basics & Settings
◦Email Notifications
◦Back
•Locations◦Facebook and Location
◦Location Privacy
◦Nearby Friends & Location History
◦Nearby Places
◦Your Business and Location
◦Place Tips
◦Back
•Offers◦Creating Offers
◦Claiming Offers
◦Back
•Pokes
•Ratings & Reviews
•Year in Review
•Say Thanks
•A Look Back
•Safety Check
•On This Day
•Trending
•Q&As
•Back
•Report Something•How to Report Things
•Don't Have an Account?
•Report Something
•Report a Broken Feature
•Intellectual Property Issues◦About Intellectual Property
◦Copyright◾About Copyright
◾Reporting Copyright Infringements
◾Back
◦Trademark◾About Trademark
◾Reporting Trademark Infringements
◾Back
◦Back
•Image Privacy Rights
•Give Us Feedback
•Contact Your Grievance Officer
•Back
•Safety Tools & Resources•Safety Resources
•Bullying
•Suicide Prevention
•Reporting Abuse
•Tools for Addressing Abuse
•Tools for Parents & Educators
•Back
•Apps, Games & Payments•App Basics◦About Apps
◦Apps That Let Me Start Using Them Right Away
◦Removing Apps
◦Ticker for Apps
◦Adding & Displaying Apps
◦App Privacy Settings & Your Info
◦App Safety & Security
◦Logging into Apps
◦Back
•Apps on Facebook◦App Stories, Activities & Invitations
◦Emails from Apps
◦Back
•Facebook on Other Websites◦Facebook Login
◦Facebook for Google Glass
◦Embedded Posts
◦Back
•Privacy for Apps & Websites
•Subscription Payments
•Platform & Developer Support◦Developer Support
◦Facebook Payments for Developers
◦Back
•Bugs & Known Issues
•Facebook Payments◦Facebook Charity Donations
◦Payments in Messenger
◦Facebook Game Payments
◦Page Post Purchases on Facebook
◦Facebook Sale Groups
◦Back
•About Social Plugins
•Back
•Profile & Timeline•Get Started
•Add a Profile Picture & Cover Photo
•Add Things You Care About
•Update Your Basic Info
•Sharing and Hiding Stories
•Share Your Organ Donor Status
•Profile & Timeline Privacy
•Apps for Timeline
•Troubleshooting
•Back
•Other Help Centers
•Help Community
Facebook Blocks
To help keep Facebook safe, we sometimes block certain content and actions. Please let us know if you think we've made a mistake in this case.
Please explain why you think this was an error
I pray to Jesus that the motherfucker who reported me and my post and the person who took action against me and my campaign for US Congress 29th Texas District are arrested and sent to concentration camps for Communications Terrorism against a candidate and servant from Houston, Texas USA (832)987-3801 James
This Feature is Temporarily Blocked
.
You recently posted something that violates Facebook policies, so you're temporarily blocked from using this feature. For more information, visit the Help Center.
To keep from getting blocked again, please make sure you've read and understand Facebook's Community Standards.
The block will be active for 28 days and 6 hours more.
If you think you're seeing this by mistake, please let us know.
Thanks for taking the time to submit a report. While we don't reply to every report, we'll let you know if we need more details.
Send
Testing, Testing, ... BANG!!!
Nondestructive testing
Nondestructive testing or Non-destructive testing (NDT) is a wide group of analysis techniques used in science and industry to evaluate the properties of a material, component or system without causing damage.[1] The terms Nondestructive examination (NDE), Nondestructive inspection (NDI), and Nondestructive evaluation (NDE) are also commonly used to describe this technology.[2] Because NDT does not permanently alter the article being inspected, it is a highly valuable technique that can save both money and time in product evaluation, troubleshooting, and research. Common NDT methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), eddy-current testing,[1] and low coherence interferometry.[3][4] NDT is commonly used in forensic engineering, mechanical engineering, petroleum engineering, electrical engineering, civil engineering, systems engineering, aeronautical engineering, medicine, and art.[1] Innovations in the field of nondestructive testing have had a profound impact on medical imaging, including on echocardiography, medical ultrasonography, and digital radiography.
Methods[edit]
NDT methods may rely upon use of electromagnetic radiation, sound, and inherent properties of materials to examine samples. This includes some kinds of microscopy to examine external surfaces in detail, although sample preparation techniques for metallography, optical microscopy and electron microscopy are generally destructive as the surfaces must be made smooth through polishing or the sample must be electron transparent in thickness. The inside of a sample can be examined with penetrating radiation, such as X-rays, neutrons or terahertz radiation. Sound waves are utilized in the case of ultrasonic testing. Contrast between a defect and the bulk of the sample may be enhanced for visual examination by the unaided eye by using liquids to penetrate fatigue cracks. One method (liquid penetrant testing) involves using dyes, fluorescent or non-fluorescent, in fluids for non-magnetic materials, usually metals. Another commonly used NDT method used on ferrous materials involves the application of fine iron particles (either liquid or dry dust) that are applied to a part while it is in an externally magnetized state (magnetic-particle testing). The particles will be attracted to leakage fields within the test object, and form on the objects surface. Magnetic particle testing can reveal surface & some sub-surface defects within the part. Thermoelectric effect (or use of the Seebeck effect) uses thermal properties of an alloy to quickly and easily characterize many alloys. The chemical test, or chemical spot test method, utilizes application of sensitive chemicals that can indicate the presence of individual alloying elements. Electrochemical methods, such as electrochemical fatigue crack sensors, utilize the tendency of metal structural material to oxidize readily in order to detect progressive damage.
Analyzing and documenting a non-destructive failure mode can also be accomplished using a high-speed camera recording continuously (movie-loop) until the failure is detected. Detecting the failure can be accomplished using a sound detector or stress gauge which produces a signal to trigger the high-speed camera. These high-speed cameras have advanced recording modes to capture some non-destructive failures.[5] After the failure the high-speed camera will stop recording. The capture images can be played back in slow motion showing precisely what happen before, during and after the non-destructive event, image by image.
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
Testing, Testing, ... BANG!!!
Nondestructive testing
Nondestructive testing or Non-destructive testing (NDT) is a wide group of analysis techniques used in science and industry to evaluate the properties of a material, component or system without causing damage.[1] The terms Nondestructive examination (NDE), Nondestructive inspection (NDI), and Nondestructive evaluation (NDE) are also commonly used to describe this technology.[2] Because NDT does not permanently alter the article being inspected, it is a highly valuable technique that can save both money and time in product evaluation, troubleshooting, and research. Common NDT methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), eddy-current testing,[1] and low coherence interferometry.[3][4] NDT is commonly used in forensic engineering, mechanical engineering, petroleum engineering, electrical engineering, civil engineering, systems engineering, aeronautical engineering, medicine, and art.[1] Innovations in the field of nondestructive testing have had a profound impact on medical imaging, including on echocardiography, medical ultrasonography, and digital radiography.
Methods[edit]
NDT methods may rely upon use of electromagnetic radiation, sound, and inherent properties of materials to examine samples. This includes some kinds of microscopy to examine external surfaces in detail, although sample preparation techniques for metallography, optical microscopy and electron microscopy are generally destructive as the surfaces must be made smooth through polishing or the sample must be electron transparent in thickness. The inside of a sample can be examined with penetrating radiation, such as X-rays, neutrons or terahertz radiation. Sound waves are utilized in the case of ultrasonic testing. Contrast between a defect and the bulk of the sample may be enhanced for visual examination by the unaided eye by using liquids to penetrate fatigue cracks. One method (liquid penetrant testing) involves using dyes, fluorescent or non-fluorescent, in fluids for non-magnetic materials, usually metals. Another commonly used NDT method used on ferrous materials involves the application of fine iron particles (either liquid or dry dust) that are applied to a part while it is in an externally magnetized state (magnetic-particle testing). The particles will be attracted to leakage fields within the test object, and form on the objects surface. Magnetic particle testing can reveal surface & some sub-surface defects within the part. Thermoelectric effect (or use of the Seebeck effect) uses thermal properties of an alloy to quickly and easily characterize many alloys. The chemical test, or chemical spot test method, utilizes application of sensitive chemicals that can indicate the presence of individual alloying elements. Electrochemical methods, such as electrochemical fatigue crack sensors, utilize the tendency of metal structural material to oxidize readily in order to detect progressive damage.
Analyzing and documenting a non-destructive failure mode can also be accomplished using a high-speed camera recording continuously (movie-loop) until the failure is detected. Detecting the failure can be accomplished using a sound detector or stress gauge which produces a signal to trigger the high-speed camera. These high-speed cameras have advanced recording modes to capture some non-destructive failures.[5] After the failure the high-speed camera will stop recording. The capture images can be played back in slow motion showing precisely what happen before, during and after the non-destructive event, image by image.
Flight case provide 24/7 manage IT service. It troubleshooting and Maintenance of various soft switches such as Veraz, Nextone, Sansay, Sonus, MVTS, TBC.
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
[et_pb_section admin_label=”section” fullwidth=”on” specialty=”off” background_color=”#d96c22″ inner_shadow=”off” parallax=”off” background_image=”http://poly-coach.com/wp-content/uploads/2015/09/header-bk2.jpg”...
poly-coach.com/2015/11/04/troubleshooting-polyamory-compe...
a fine and dedicated art exhibition of graphics, album art, photo and painting by famous Swedish artist Lasse Hejll from Akarp
** Protected PRESS photo **
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
Operator: Royal Canadian Air Force (RCAF)
Aircraft: Lockheed Martin CC-130J Hercules
Registration: 130617
C/n: 382-5690
Time & Location: 16.06.2022, EFTP, Finland
Remarks: Aircraft had problems with landing gears not being deployed. It made soon a safe landing after troubleshooting the issue.
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
TaylorMade Business IT Services
Our Accredited IT Partners have years of experience in designing and administering business systems and provide comprehensive business IT services and support.
Business IT Support Norwich
Network Installation & Troubleshooting
Windows Server Support...
taylormadetv.com/business-it-support-norwich-norfolk-it-s...
SASEBO, Japan (April 14, 2021) – Aviation Boatswain’s Mate (Fueling) 2nd Class Jose Vicencio, from Queen Creek, Ariz., assigned to the forward-deployed amphibious assault ship USS America (LHA 6), drains excess fuel from a JP-5 hose scheduled for troubleshooting. America, lead ship of the America Amphibious Ready Group, is operating in the U.S. 7th Fleet area of responsibility to enhance interoperability with allies and partners and serve as a ready response force to defend peace and stability in the Indo-Pacific region. (U.S. Navy photo by Mass Communication Specialist 2nd Class Shelby Tucker)
Detective Modder on the lightspot again!
Previously I whined about SSIL that didn't work and I didn't know how to make it works, why it happened only to me was unknown until today..
Here what I discovered:
if you start the game with ambientocclusion=false, and then you activate it through GUI of Toggler you will only see SSAO work, but not SSIL.
You basically have to restart the game with ambientocclusion on "true" to see either SSAO and SSIL. Or at least this is what was wrong with my configuration.
I have to thank jay and its Goddess ENB to make me discover this mistery, since I forgot to set ambientocclusion to false and I found out testing its config and its values :)
P.S Reandor as a follower, I made a compilation with most of my characters as followers.. the only thing is I forgot to give them some perks :facepalm:
Wet Plate Collodion Tintype
Kodak Empire State No. 2
My first successful plate outside of a workshop after troubleshooting a number of plates.
All mounts installed, everything wired back up, troubleshooting finished, top shelf organized, wires managed as much as possible. Took down the mounted speakers and hid them behind the monitors. I really don't use them that often anyways. Most everything runs though my GameCon headet the bulk of the time. I'm really satisfied with how it turned out, and now my monitors are exactly at eye level, and the extra desk space below them is wonderful.
The brakeman on this DM&IR local is troubleshooting a brake valve issue on coach 33.
Taken during Railfan Weekend 2013 at the Lake Superior Railroad Museum, Duluth, Minnesota. A big thanks to the museum and Steve Glischinski for making this happen!
This was a first attempt at caramel apples. All the caramel ran off, I think because I had it too hot. Maybe. I will have to find a caramel apple troubleshooting guide somewhere!
There were many troubleshooting guides when TV sets had tubes to determine which ones could be bad. This was a clever one where the trouble could be dialed and a list of tubes which could be causing the problem would be given.
There were many troubleshooting guides when TV sets had tubes to determine which ones could be bad. This was a clever one where the trouble could be dialed and a list of tubes which could be causing the problem would be given.
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
Today, the #mypubliclandsroadtrip visits wilderness stops in BLM California. And who better to give a behind-the-scenes on wilderness than our own Bob Wick, photographer and BLM Wilderness Specialist?
"There’s two “best things” (about my job). One is that I get to work on policy and troubleshooting questions with employees throughout the Bureau. The other amazing part of my job… I have been able to get out to all the western states and photograph some of the most spectacular landscapes on the planet – places that we in the BLM are entrusted to manage." - Bob Wick
This morning I was troubleshooting a cellular modem in one of our work vehicles. When I couldn't get a decent signal I decided to park next to the cell tower near Skyline. This was my view while I waited on hold with customer support.
Overdose da assistenza tecnica... Troubleshooting Overdose
----------------------------------------------
VENI VIDI VISIT:
The BEST not-so touristy FREE WALKING TOUR of ROME www.venividivisit.org
----------------------------------------------
Testing, Testing, ... BANG!!!
Nondestructive testing
Nondestructive testing or Non-destructive testing (NDT) is a wide group of analysis techniques used in science and industry to evaluate the properties of a material, component or system without causing damage.[1] The terms Nondestructive examination (NDE), Nondestructive inspection (NDI), and Nondestructive evaluation (NDE) are also commonly used to describe this technology.[2] Because NDT does not permanently alter the article being inspected, it is a highly valuable technique that can save both money and time in product evaluation, troubleshooting, and research. Common NDT methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), eddy-current testing,[1] and low coherence interferometry.[3][4] NDT is commonly used in forensic engineering, mechanical engineering, petroleum engineering, electrical engineering, civil engineering, systems engineering, aeronautical engineering, medicine, and art.[1] Innovations in the field of nondestructive testing have had a profound impact on medical imaging, including on echocardiography, medical ultrasonography, and digital radiography.
Methods[edit]
NDT methods may rely upon use of electromagnetic radiation, sound, and inherent properties of materials to examine samples. This includes some kinds of microscopy to examine external surfaces in detail, although sample preparation techniques for metallography, optical microscopy and electron microscopy are generally destructive as the surfaces must be made smooth through polishing or the sample must be electron transparent in thickness. The inside of a sample can be examined with penetrating radiation, such as X-rays, neutrons or terahertz radiation. Sound waves are utilized in the case of ultrasonic testing. Contrast between a defect and the bulk of the sample may be enhanced for visual examination by the unaided eye by using liquids to penetrate fatigue cracks. One method (liquid penetrant testing) involves using dyes, fluorescent or non-fluorescent, in fluids for non-magnetic materials, usually metals. Another commonly used NDT method used on ferrous materials involves the application of fine iron particles (either liquid or dry dust) that are applied to a part while it is in an externally magnetized state (magnetic-particle testing). The particles will be attracted to leakage fields within the test object, and form on the objects surface. Magnetic particle testing can reveal surface & some sub-surface defects within the part. Thermoelectric effect (or use of the Seebeck effect) uses thermal properties of an alloy to quickly and easily characterize many alloys. The chemical test, or chemical spot test method, utilizes application of sensitive chemicals that can indicate the presence of individual alloying elements. Electrochemical methods, such as electrochemical fatigue crack sensors, utilize the tendency of metal structural material to oxidize readily in order to detect progressive damage.
Analyzing and documenting a non-destructive failure mode can also be accomplished using a high-speed camera recording continuously (movie-loop) until the failure is detected. Detecting the failure can be accomplished using a sound detector or stress gauge which produces a signal to trigger the high-speed camera. These high-speed cameras have advanced recording modes to capture some non-destructive failures.[5] After the failure the high-speed camera will stop recording. The capture images can be played back in slow motion showing precisely what happen before, during and after the non-destructive event, image by image.
I have had this faucet for 3 years. I have replaced the control module about every three months because of a solenoid valve failure, pain in the ass. The latest replacement module is completely different from previous modules, giving hope that a resolution has been found for the troublesome valve. This new control module has an added function using the Bi-color LED. The water temperature biases the LED from BLUE (Cold) to RED(Hot). The LED goes from dark to light BLUE then a mix of blue and red then light to dark RED.
Update: 11-15-2016 The new style module failed only allowing a trickle of water to pass. The new replacement solenoid/electronics unit has firmware v2.8 vs 2.7.2 for the failed unit. The warranty replacement sent by Delta was Delta EP74857 Solenoid Assembly.
www.deltafaucet.com/bath/details/538t-ss-dst.html
Troubleshooting video: support.deltafaucet.com/s/article/How-to-Troubleshoot-a-D...
I've been waiting for this re-release ever since I saw the actual dress on another lolita friend, and when it was announced on the AP website my hopes of owning a cat dress from AP was about to come true! ♡
I prepared for the upcoming "bloodbath" by registering on the AP website, ran into so much troubleshooting issues just to get my Tenso account up & running, and prepped myself by test-purchasing (adding items into the card and making sure what steps come next).
What I was not able to prepare was having my card stuck at payment page. I successfully managed to get my 1st choice (the regular waist JSK in lavender) in the cart>made it into to payment page, but somehow it did not want to recognise my name in katakana. After a few attempts the page refreshed and my jsk was gone. I WAS IN TEARS!!! 😭😭😭 *insert expletives* So I decided to try again for the low waisted jsk (before it ran out) and then finally, it was successful!
To be honest, I'm still kinda worried if this cut will suit me at all. I was quite fixed on owning the regular jsk cut, and I'm a bit apprehensive of this eventhough I managed to snag my fav colourway. Hopefully when it arrives it'll change my mind 😿
[Edit 3/10/2015]
So it arrived!! And I must say that the length of the dress is short on me (one fear confirmed ) but there was no issues with the fit (and one fear down!) It is still sad that I couldn't own the normal jsk cut, but I still love this print a lot and am gonna try and work something out 😍
---
Product Number: 152PJ4-2952
Year: 2015 (September re-release)
Colourway : Lavender
Features:
Lining, Partial shirring, Corset lacing, Dropped waist, Adjustable straps, Removable waist ribbon, Pockets, Tucks, Side zip
Other notes:
♡ Material ♡
·Body: Original burberry print (100% cotton).
♡ Lace ♡
·Original Tulle Lace.
·Chemical Lace.
·Lace fabric (100% polyester).
♡ Other ♡
·Satin ribbon
·Original Dolly Cat pattern print fabric.
·Original ribbon pattern tulle lace.
·Back ribbon is removable.
·Includes pearls on front & back waist ribbon.
·Some back shirring offers limited ease of fitting.
Bust: About 90~102cm
Waist: About 75~85cm
Length: About 86cm(include lace)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
** Copyright for this photo belongs solely to Ian-Janne Matt Images may not be copied, downloaded, or used in any way without the expressed, written permission of the photographer. ( RM-Rights managed only)
PACIFIC OCEAN (June 16, 2020) Sailors run a diagnostics check on an F/A-18E Super Hornet, from the "Mighty Shrikes" of Strike Fighter Squadron (VFA) 94, on the flight deck aboard the aircraft carrier USS Nimitz (CVN 68). Nimitz, the flagship of Carrier Strike Group 11, is deployed conducting maritime security operations and theater security cooperation efforts. (U.S. Navy photo by Mass Communication Specialist 3rd Class Elliot Schaudt/Released)