Pieces and components: A closer look at the aerospace industry

Pieces and components: A closer appear at the aerospace industry
This Brooklyn Heights organization began out as a service grinding job shop, but transitioned to turn into a contract manufacturer producing its personal parts in the mid-1990s, mentioned Cory Homer, its vice president of sales and advertising. … Aerospace is an …
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Manx Precision Optics, International Space University Companion on 3-D Printing
In July 2015 MPO accomplished another milestone by attaining ISO 9001:2008 certification for its production of higher precision optical components. The organization has a really knowledgeable workforce and covers the full variety of optical manufacture, from grinding …
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OptiPro PRO 160 Series for Production of Precision Optics Up To 160mm
OptiPro Systems, LLC, a specialist in offering precision optics fabrication equipment, introduced the PRO 160 Series comprising of 4 diverse platforms for precision optical grinding, polishing, and centering. Influenced by the verified accomplishment of …
Read far more on Novus Light Technologies Nowadays

Nice Milling And Turning images

A few good milling and turning photos I identified:

67/365 Torenmolen Zeddam

Image by Maarten Takens
The blue hour turned out to be stunning tonight , so i took my gear and drove off to this mill .. a single of the oldest mills in the area , it was built in the 15.th Century , its walls are at three meters Thick at the bottom ,this is essential to help the head of the mill ( that can be turned into the wind , in these days there was no concrete so they had to develop genuinely thick walls 😀

EXIF-Daten

Kamera Canon EOS 5D Mark II
Belichtung 70 Sekunden
Blende f/16.
Brennweite 24 mm
ISO-Empfindlichkeit 200
Lens EF24-70mm f/two.8L USM

Image from page 463 of “Farm machinery and farm motors” (1908)

Some cool gear grinding photos:

Image from web page 463 of “Farm machinery and farm motors” (1908)

Image by Web Archive Book Images
Identifier: farmmachineryfar00davi
Title: Farm machinery and farm motors
Year: 1908 (1900s)
Authors: Davidson, Jay Brownlee Chase, Leon Wilson
Subjects: Agricultural machinery
Publisher: New York, O. Judd firm [etc., etc.]
Contributing Library: The Library of Congress
Digitizing Sponsor: Sloan Foundation

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Text Appearing Before Image:
turn will propel the drivewheels. But if the drivewheel attached to pinion Ghappens to travel faster thanthat attached to shaft F the^^^^. , pinion C will revolve and ^9^^EB^^^£.^^SJliL ^^^^^ ^^^ pinion A will propel^^^^S»^BSi^rtF«»c the gearing. Typically there are some quite serious jerks onthe transmission gearing ofan engine and some com-panies are now inserting intheir compensating gears aset of springs which take this jar off the gearing. 590. Traction.—Any traction engine has power enoughto propel itself more than the road and through the fields pro-vided the drive wheels do not slip. Consequently thematter of the wheels adhering to the ground is an im-portant part. Where the road surface is firm there is nodifficulty but in a soft field wonderful difficulty is experienceddue to the fact that the lugs of the drive wheels tear upthe earth and enable the drive wheels to move withoutmoving the engine. It is a typical belief that the driv^ewheel which has the sharpest lug is the a single which will

Text Appearing Soon after Image:
FIG- 335—COMPENSATING GEARS 452 FARM MOTORS adhere to the ground the ideal. In almost all circumstances thisis not true, considering that the lug which is sharp is really apt to cutthrough the earth, while one particular which is dull or round anddoes not have such penetrating impact will pack the earthdown and as a result make far more resistance for itself whilepassing by means of the earth. Nearly each and every engine builderhas a style of lug of his own. Fig. 338 shows a newstyle of traction wheel which seems to be giving verygood final results. The more weight that can be put on tothe drive wheels of an engine the much better it will adhereto the ground, supplying the surface is firm sufficient tosupport the load. This makes the matter of place of the major axles upon theboiler an important element.When the boiler is rear-mounted it is apparent thatmore of the weight isthrown upon the frontwheels, which act as aguide, than when thePjg ^,g boiler is side-mounted. Hence a single would be led tobelieve that the side-mounted traction engine will havebetter

Note About Photos
Please note that these photos are extracted from scanned page photos that could have been digitally enhanced for readability – coloration and appearance of these illustrations could not perfectly resemble the original operate.

Image from page 665 of “Electric railway overview” (1906)

Image by Net Archive Book Photos
Identifier: electricrailwayr18amer
Title: Electric railway review
Year: 1906 (1900s)
Authors: American Street and Interurban Railway Association
Subjects: Street-railroads Electric railroads
Publisher: Chicago : Wilson Co
Contributing Library: Carnegie Library of Pittsburgh
Digitizing Sponsor: Lyrasis Members and Sloan Foundation

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About This Book: Catalog Entry
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Text Appearing Ahead of Image:
Is considerably lighter than the regulartype-C brake of the same gear ratio of which it is a modifica-tion. The brake has been on the industry significantly less than a month. TITAN GEARS. The material composing the Titan gears manufactured bythe Atha Steel Casting Company, of Newark, N. J., is so difficult that it cannot be reduce by anytool steel yet-recognized. Allfinished surfaces, such asteeth and hub-fit, are ac-curately ground to tem-plates. Although the ma-terial is difficult, it is notbrittle on the contrary itis so hard that test pieceshave been bent coldthrough an angle of 180degrees with no showingfracture. The gear is madesolid with the teeth castin, then a special machinegrinds the periphery of theteeth to the accurate di-ameter. One more machinegrinds every tooth to themaster, while nonetheless one more machine grinds out the hub-match and faces each sides. A gray iron or soft steel hub is thenpressed in at a pressure of 35 to 4.5 tons per square inch,and is bored out to the suitable size for forcing on the axle.

Text Appearing Right after Image:
Titan Gear. When arrangements were becoming made for the Louisianapurchase exposition, held in St. Louis, Mo., in 1904, a specialcommittee was appointed to think about the query of streetpaving. Soon after an exhaustive investigation Bitulithic wasselected for Lindell boulevard, the main thoroughfare whichled to the principal entrance to the exposition. The wisdomof this special committee later was indicated by the superiorjury of awards, which granted to Bitulithic the gold medalas the nearest approach to the best pavement. The James-town boulevard commission also chosen Bitulithic above allothers for the boulevard to the Jamestown, (Va.), expositiongrounds. A rail bond with a conductivity of two-thirds that of therail is obtained only beneath exceptional circumstances, but arail bond of such conductivity that the drop of prospective acrosstwo feet of bonded rail is less than the drop of potentialacross two feet of solid rail would undoubtedly appear to be theideal bond. Harold P. Brown, 120 Libe

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Please note that these photos are extracted from scanned web page pictures that may possibly have been digitally enhanced for readability – coloration and appearance of these illustrations might not perfectly resemble the original function.

Good Edm Machining photos

Check out these edm machining images:

Psy

Image by Eva Rinaldi Celebrity and Live Music Photographer
Future Music Festival, Randwick, Sydney, Australia…

Right now Sydney once once again enjoyed one of the premiere Music Festivals to hit Australia – the Future Music Festival.

Randwick, in Sydney’s eastern suburbs was blasted by festival goers, and for the most portion, the crowd was not disappointed.

The fest which attracted 50,000 fans, had a line-up that ranged from Psy to alt-indie rockers The Stone Roses.

Market speak as some people questioned the use of the phrase &quotfuture music&quot for bands who had discovered fame and accomplishment decades ago, which includes The Stone Roses and The Prodigy, in spite of each acts becoming robust drawcards for several fans at the event.

There have been plenty of other hot acts on the marquee incorporated Rita Ora, Australian band The Temper Trap and Avicii.

Nicely accomplished to every person involved in the achievement of this years Future Music Festival.

Media…

Future Entertainment, Nova, Channel [V], SPA, inthemix and Quicker Louder Present:

FUTURE MUSIC FESTIVAL 2013 – SYDNEY
Royal Randwick Racecourse, NSW
Sat 09 Mar, 2013

AVICII
ANNOUNCED AS THE EDM HEADLINER AT THIS YEAR’S FUTURE MUSIC FESTIVAL!!

Future Entertainment can now officially confirm that chart-topping Swedish superstar and worldwide phenomenon Avicii has been added to the already monumental line-up for this year’s Future Music Festival in March!

Set to bring his enormous production to the headlining spot of the EDM stage at this year’s Future Music Festival, 2x Grammy award nominee Avicii has certainly proved himself as the EDM force to be reckoned with since he exploded on to the scene in 2011. Place fairly basically, in the comparatively quick time since we very first heard his name, Avicii has accomplished far more than most artists would dream of in an whole lifetime. And, at just 23 years of age, Avicii is just getting began!

Greatest identified for his exquisite production skills, his prolific reside performances and a string of international mega-hits like the worldwide phenomenon, ‘Levels’, (which conquered music charts worldwide racking up over 50 million YouTube views, and was declared David Guetta’s &quotTune of 2011&quot) Avicii is with no a doubt 1 of the most in demand artists on the planet.
2012 saw the Swede skyrocket. Kicking the year off with the ‘House for Hunger’ tour, Avicii and manager Ash Pournouri donated a staggering million to the organization ‘Feeding America’, by undertaking a not-for-profit 27-quit tour of the U.S.

The year also saw him headline some of the world’s greatest music festivals including Coachella, Ultra Music (exactly where he was joined on-stage by pop queen Madonna), Lollapalooza, Electric Daisy Carnival, Tomorrowland, Exit Festival, Creamfields, Mysteryland, Austin City Limits. He was also lately ranked as the second-most influential under-30 person in music by Forbes magazine.

Most not too long ago, Avicii has launched the Avicii x You project which will see him collaborate with fans, producers and musicians from all over the planet for his subsequent single. All earnings from the single will once more go to the ‘Feeding America’ charity.

2013 will see this prodigal wiz-kid join the hallowed ranks of the Future Music Festival. The Day Of The Dead-Set Great is most undoubtedly upon us and it really is set to be all the much more great with Avicii onboard!

The unstoppable force that is Avicii will headline the EDM stage at this year’s Future Music Festivals alongside fellow heavyweights Dizee Rascal, Hardwell, Steve Aoki, Madeon + several far more.

The Future Music Festival 2013 pinata has officially popped!

It’s the ‘Day Of The Dead-Set Awesome’ and this year Future Music Festival is set to rock your skulls off! We’ve been brewing anything unique, and complete of much more thoughts-blowing music than you can poke a cactus at… Future Music Festival 2013 is going to kick tougher than a Tijuana donkey on peyote! Exactly where else would you want to be? Our Casa is your casa muchacho!

With the most revolutionary and dynamic line-up to date, Future Entertainment is bringing you a curated arena and two super-sized major stages jam-packed with the hottest talent the planet has on supply.

The Prodigy will give you the Warriors Dance Arena – an entire arena dedicated to hard-edged, and heavy bass driven music plus some of the world’s most cutting-edge dub-step acts. The stage is set to showcase why this band deserves each sense of credibility and admiration attached to their name. It really is going to be large! Epic if you will. Joining them in the Warriors Dance Arena will be Boys Noize (Terminator-esque skull show! New album out this Friday), Feed Me Live (Live Teeth Show), FMF 2012 heroes Kill The Noize, Zeds Dead and Borgore. Another quite welcome addition to the Warriors Dance Arena is international tastemaker and legendary DJ in his personal right, Zane Lowe. This man has fairly actually had a hand in the shaping careers of far more than a single of the artists on this line-up and has actually earned his stripes amongst the greatest. With each and every act as illustrious and defining as the subsequent, be ready… the Warriors are coming.

Fresh from breaking records for the fastest promoting rock tour in UK history (220,000 tickets in 68 minutes!) the pioneers of option rock The Stone Roses are bringing their Manchester-borne reunion tour to Aussie shores. Joining them on the live front are fellow Brits Bloc Celebration. Returning to Australia for the very first time since the release of their critically acclaimed new album 4 they will be sending fans into an absolute frenzy as they make their debut Future Music Festival appearance.

In a move as opposed to any other, International sensation and K-Pop superstar PSY has also been added to the bill. The current on the internet obsession over his Gangnam Style video has turned the South Korean into a global phenomenon. His single has had in excess of 400 million youtube views and has reached the number 1 spot in 33 nations and counting! Arriving in Australia this Sunday, Psy will execute on X-Element and share with a captive nation his EX-PSY-TMENT about debuting his reside show at Future Music Festival 2013.

Off the back of a triumphant efficiency at the AFL Grand Final that saw their smash hit album Conditions soar back into a Best 10 position in the ARIA charts, our boys The Temper Trap will be showing the internationals how we hold our own. Adding a little a lot more Oz to the concoction will be indie-rock wunderkinds Gypsy &amp The Cat – returning with a much anticipated new album mixed by superstar Dave Fridman (The Flaming Lips, MGMT) and a new single ‘Bloom’ which shot straight to number five on the planet wide hype machine.

Anticipate items to get a tiny bonkers with UK powerhouse MC and festival should-have Dizziee Rascal back on the bill. Fellow countrymen DJ Fresh and Rudimental have also had really impressive years. With a string of hits and sold out shows to each of their names respectively, these reside acts know how to get the celebration started. Period. Also along for the ride we give you the chart-topping New York pop-rockers Fun. And you better believe it will be!

This season, Future Music Festival has pulled together an array of the finest female talent on the planet. Initial up, hailing from Harlem, we have the difficult-hitting, organic born lyricist Azealia Banks. With a considerably anticipated new album on the way, this provocative lady of the moment is all set to deliver a hot and heavy set featuring tracks from her hit EP ‘1991’. Subsequent up, Rita ‘This Is How We Do’ Ora will be taking to the stage. With no much less than 3 quantity 1 UK hits under her Alexander Wang belt and a slew of burgeoning international praise, 2013 is all about Rita’s Ora! On the topic of UK sensations, Ellie Goulding will be making her significantly-awaited Australian festival debut. Rounding off an virtually ideal female contingent are the ever-impressive Aussies (and Future Music favourites), Nervo.

If ever there was an EDM all-star line-up, to end all other line-ups, this would undoubtedly be it. FMF 2013 brings you electronic icons Steve Aoki, A-Trak (Live), Madeon and Hardwell. The EDM A-Team has officially landed.

The undisputed heavyweight champion of underground and heralded king of Ibiza, Sven V th will be bringing his Cocoon Heroes notion down below for the 1st time. Returning for his 5th performance on FMF, V th will head up the strongest techno line-up in Future Music history. We kid you not. Cocoon Heroes will showcase fellow techno-titans Richie Hawtin, Ricardo Villalobos, Seth Troxler and Magda. Featuring full lights and production, Cocoon Heroes will boast all of the components that make this the greatest event on the white island every single summer season, and significantly, Much more!

Trance-a-holics can appear forward to riding each bone-tingling breakdown and develop-up as we announce Wake Your Mind! Curated by none other than trance visionaries Cosmic Gate the Wake Your Thoughts stage will function vocalist Emma Hewitt, W&ampW, tyDi, Super eight &amp Tab and Ben Gold.

Last, but by no indicates least Australia’s really own The Stafford Brothers, Timmy Trumpet, Tenzin and Bombs Away will when again join the hallowed ranks. Hold on to your margaritas – these Aussies are LOCO!! Party time? Excellente.

What is now a rite of passage for all music lovers, Future Music Festival is back! The Day Of The Dead-Set Amazing is upon us. This is the festivale de m sica futuro…Taco Taco muchachos!

FUTURE MUSIC FESTIVAL 2013 LINEUP*

THE PRODIGY – THE STONE ROSES – AVICII
Bloc Celebration – Dizzee Rascal – Azealia Banks – Rita Ora
Boys Noize (Reside debut) – Hardwell – The Temper Trap – Fun.
Madeon – Rudimental – Ellie Goulding – Steve Aoki
Gypsy &amp The Cat – A-Trak (Reside)
Kill The Noize – Feed Me (Live) – Zeds Dead
DJ Fresh – Nervo – Zane Lowe – Borgore
The Stafford Brothers &amp Timmy Trumpet – Tenzin – Bombs Away
Specific Guest PSY (Gangnam Style)

COCOON HEROES feat Sven V th – Richie Hawtin
Ricardo Villalobos – Seth Troxler – Magda

WAKE YOUR Thoughts feat Cosmic Gate feat Emma Hewitt
W&ampW – tyDi – Andy Moor – Super8 &amp Tab – Ben Gold
+ Considerably A lot more!!

NATIONAL TOUR DATES:
BRISBANE – Saturday 2nd March Doomben Racecourse
PERTH^ – Sunday 3rd March, Arena Joondalup – Labour Day Extended Weekend
SYDNEY – Saturday 9th March Randwick Racecourse
MELBOURNE – Sunday 10th March Flemington Racecourse – Labour Day Long Weekend
ADELAIDE – Monday 11th March Bonython Park – NEW VENUE – Adelaide Cup Day

Sites

Future Music Festival
www.futureentertainment.com.au/futuremusicfestival

Music News Australia
www.musicnewsaustralia.com

Eva Rinaldi Photography
www.evarinaldi.com

Nice Surface Grinding Stainless Steel images

Some cool surface grinding stainless steel pictures:

Korean War Memorial

Image by StarrGazr
From 1950 to 1953, the United States joined with the United Nations forces in Korea to take a stand against what was deemed a threat to democratic nations worldwide. At war’s finish, a million and a half American veterans returned to a peacetime globe of families, residences, and jobs – and to a nation long reluctant to view the Korean War as some thing to memorialize. But to the men and women who served, the Korean War could in no way be a forgotten war.
The passing of much more than four decades has brought a new viewpoint to the war and its aftermath. The time has come, in the eyes of the Nation, to set aside a location of remembrance for the men and women who served in this tough-fought war half a planet away. The Korean War Veterans Memorial honors these Americans who answered the call, these who worked and fought under the most attempting circumstances, and those who gave their lives for the trigger of freedom.

A War Half a World Away

Only 5 years had passed given that the finish of Planet War II when the United States after once more found itself embroiled in a key international conflict. In the early morning hours of June 25, 1950, the communist government of North Korea launched an attack into South Korea. Determined to assistance the world’s imperiled democracies, the United States quickly sent troops from Japan to join those currently stationed in Korea they fought with other nations below the U.N. flag. What was envisioned as a brief, decisive campaign became a prolonged, bitter, frustrating fight that threatened to explode beyond Korean borders. For 3 years the fighting raged. In 1953 an uneasy peace returned by signifies of a negotiated settlement that established a new boundary close to the original a single at the 38th parallel.
A single-and-a-half million American guys and ladies, a true cross-section of the Nation’s populace, struggled side by side in the course of the conflict. They served as soldiers, chaplains, nurses, clerks, and in a host of other combat and help roles. Many risked their lives in extraordinary acts of heroism. Of these, 131 received the Congressional Medal of Honor, the Nation’s most esteemed tribute for combat bravery.

A Spot for Reflection

Viewed from above, the memorial is a circle interesected by a triangle. Guests approaching the memorial come initial to the triangular Field of Service. Right here, a group of 19 stainless-steel statues, produced by Planet War II veteran Frank Gaylord, depicts a squad on patrol and evokes the encounter of American ground troops in Korea. Strips of granite and scrubby juniper bushes recommend the rugged Korean terrain, whilst windblown ponchos recall the harsh weather. This symbolic patrol brings with each other members of the U.S. Air Force, Army, Marines, and Navy the guys portrayed are from a range of ethnic backgrounds.
A granite curb on the north side of the statues lists the 22 nations of the United Nations that sent troops or gave medical assistance in defense of South Korea. On the south side is a black granite wall. Its polished surface mirrors the statues, intermingling the reflected photos with the faces etched into the granite. The etched mural is based on actual photographs of unidentified American soldiers, sailors, airmen, and marines. The faces represent all these who provided assistance for the ground troops. With each other these pictures reflect the determination of U.S. forces and the countless methods in which Americans answered their country’s call to duty.

The adjacent Pool of Remembrance, encircled by a grove of trees, provides a quiet setting. Numbers of those killed, wounded, missing in action, and held prisoner-of-war are etched in stone nearby. Opposite this counting of the war’s toll another granite wall bears a message inlaid in silver:
Freedom Is Not Free of charge.

Establishment and Dedication

On October 28, 1986, Congress authorized the American Battle Monuments Commission to establish a memorial in Washington, D.C., to honor members of the U.S. armed forces who served in the Korean War. The Korean War Veterans Memorial Advisory Board was appointed by President Ronald Reagan to advise a web site and design, and to raise building funds. Ground was broken in November 1993. Frank Gaylord was selected as the principal sculptor of the statues and Louis Nelson was selected to create the mural of etched faces on the wall. On July 27, 1995, the 42nd anniversary of the armistice that ended the Korean War, the memorial was devoted by President William J. Clinton and Kim Young Sam, President of the Republic of Korea.

Visiting the Memorial

The memorial is staffed from eight a.m. to midnight each and every day of the year except December 25 by park rangers who are available to answer concerns and give talks. A bookstore in the nearby Lincoln Memorial sells informational items relating to each the memorial and the Korean War.
The Korean War Veterans Memorial is element of the National Park Program, 1 of far more than 370 parks representing our nation’s natural and cultural heritage. Address inqueries to: Superintendent, National Capital Parks-Central, 900 Ohio Drive, SW, Washington, DC 20024-2000.

~1kV adjustable voltage source with sub-ppm stability

A handful of good higher precision grinding pictures I identified:

~1kV adjustable voltage source with sub-ppm stability

Image by fatllama
A industrial higher voltage source had noise and 1/f jitter that restricted its stability to .01% over almost all timescales. I wanted it to be 100 instances far better specifically over averaging occasions of .1 – 100s. I didn’t want to just add a massive RC filter, since we also require great regulation at the load and reasonable settling occasions amongst frequent switches. So, it was time to style and implement a voltage regulator. Fortunately, the circuit will have to supply barely any current the load will be the 10M of a voltage meter, and the charging currents of two electrodes amounting to 30pF of capacitance.

Here’s the simple concept: we stably divide a high voltage by one hundred and examine it to a -10V setpoint. Any errors are actively nulled by feedback to the high voltage level. Fairly a bit was inspired or shamelessly stolen from Horowitz and Hill, pp. 368-376.

A buried zener diode reference (LM399) creates a really steady ~7 V. Soon after a day of warming up, I’ve seen the fractional stability of the LM399 at least as very good as 4e-7 (1-1000 seconds). A low voltage-noise and input-offset op-amp (LT1001) converts this to ~10 V using a gain network of .2 ppm/°C Vishay resistors. The 10V is divided (more Vishay resistors) in 11 stages each stage goes to a tap on a 12-position rotary switch. This lets us pick a setpoint from amongst 11 evenly spaced voltages amongst ground and the stable 10 V reference.

The selected setpoint is RC-filtered with a polypropylene capacitor (Horowitz and Hill recommend polypropylene due to its low leakage… a alter in the leakage of .5nA would mean—heavens!—a complete ppm voltage drop in the 20kOhm filter resistance).

Meanwhile, higher voltage is applied to the the drain of an n-MOSFET featuring a very higher breakdown voltage. The supply (&quotoutput&quot) of the MOSFET is low-pass filtered with one more polypropylene capacitor (giant blue box, above), and sees a precision 100:1 voltage divider (Caddock). Certain, a voltage divider is just two stinking resistors, but the Caddock divider delivers a division ratio with really low temperature dependence and higher stability. As a result, the top resistor is made to be very Ohmic with higher voltage applied, and the two resistors are mounted on a typical heat-sunk ceramic package. They claim a ratio tempco of 5ppm/°C.

The divided output is compared with the selected setpoint by a low-noise op amp, and the amplified &quoterror&quot is sent to the gate of the MOSFET. Since the low-voltage op amp can not directly drive the high voltage pass-transistor (the gate wants to be many volts above the supply, and the supply could be at 1kV!), a second HV MOSFET acts like a voltage amplifier.

In this configuration, the MOSFETs need a bit of &quotoverhead&quot the applied HV should be about 10V higher than the &quotoutput&quot HV. And, this overhead can be produced as higher as 700 V or so ahead of the quiescent existing through the amplifier MOSFET gets to be 1mA or so.

The exterior of the box is lined with kapton-film heaters and insulation. A thermistor is buried in the aluminum and an AD590 absolute temperature sensor is mounted on the PCB subsequent to the Vishay division resistors. A temperature controller servos the box temperature to significantly greater than 1°C stability.

If you wanted to get truly fancy, the division chain and 12-position switch could be replaced with a hugely-stabilized DAC, driven by the good 10V reference here. Then, a 12-bit digital word could generate thousands of possible &quotsetpoints&quot for the HV.

20150827-NRCS-LSC-0542

Image by USDAgov
Virtual Panorama of Reiter Berry Farms, in Watsonville, CA, on Thursday, August 27, 2015, are working with the U.S. Division of Agriculture (USDA) All-natural Resources Conservation Service (NRCS) to enhance on the 30% water savings they already attain with precision micro subsurface irrigation. The use of a Wireless Irrigation Monitoring Network (WIN) to collects data from wireless solar powered soil tensiometers, and climate field stations positioned throughout farms in 3 counties allow them to track soil, temperature, and humidity circumstances with a cloud-primarily based irrigation management program, to much better handle watering and soil conservation efforts in far more than 700 acres. They actively share their data, methods, and experiences with other producers. Much better management by producers using a presently dwindling provide and quality of ground water (wells) in this county will assist recharge the aquifer and avoid the migration of nearby Pacific Ocean salt water into the ground water they use. This is 1 of the approaches growers are extending the water provide. Reiter Affiliated Firms (RAC) has been involved with household farming because 1868 is a major fresh, multi-berry producer in the planet and a leading supplier of fresh strawberries, raspberries, blueberries and blackberries in North America.
Wireless soil tensiometer are buried at multiple distinct distances and depths from the subsurface water emitters and the root balls. The tensiometer measures how strongly the soil absorbs water. The tensiometer’s porous probe is buried into the soil and a pump pulls some air out, creating a vacuum. Water and moisture from the surrounding soil enters the probe. Low amounts of water entering the tensiometer indicate plants (and evaporation) are pulling water from the soil and may require to be watered. Higher levels of water entering the tensiometer indicate the plants have enough water. This data is then transmitted to a company’s cloud-based irrigation management technique that tends to make the data available on customer’s mobile device in the field. If this information is combined with historical information and other information, it can support figure out when, how extended and how fast watering requirements to be for best efficiency, soil wellness and electrical economy to increase a business’s yield and profitability. These measurements helps ensure perfect watering and for soil conservation. The farms have been using the tensiometers for five years. USDA Photo Illustration by Lance Cheung.

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Forcible entry and breaching operations into and about the location of the MRI room became problematic when firefighters attempted to use a saw to cut an interior opening into the drywall to find the tractor cab. Alternatively, they encountered the metal …
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Steven F. Udvar-Hazy Center: Vought F4U-1D Corsair

Verify out these surface grinding manufacturer images:

Steven F. Udvar-Hazy Center: Vought F4U-1D Corsair

Image by Chris Devers
See more images of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Vought F4U-1D Corsair:

By V-J Day, September 2, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design permitted ground clearance for the huge, 3-bladed Hamilton Regular Hydromatic propeller, which spanned more than 4 meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the biggest and one of the most effective engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-help fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Firm

Date:
1940

Nation of Origin:
United States of America

Dimensions:
All round: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft 5 9/16in., 8900lb., 41ft 1/8in.)

Components:
All metal with fabric-covered wings behind the major spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a 3-blade Hamilton Normal Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch wing bent gull-shaped on each sides of the fuselage.

Extended Description:
On February 1, 1938, the United States Navy Bureau of Aeronautics requested proposals from American aircraft companies for a new carrier-based fighter airplane. During April, the Vought Aircraft Corporation responded with two styles and 1 of them, powered by a Pratt &amp Whitney R-2800 engine, won the competitors in June. Much less than a year later, Vought test pilot Lyman A. Bullard, Jr., first flew the Vought XF4U-1 prototype on Might 29, 1940. At that time, the largest engine driving the biggest propeller ever flown on a fighter aircraft propelled Bullard on this test flight. The R-2800 radial air-cooled engine developed 1,850 horsepower and it turned a three-blade Hamilton Normal Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch.

The airplane Bullard flew also had yet another striking function, a wing bent gull-shaped on each sides of the fuselage. This arrangement gave additional ground clearance for the propeller and reduced drag at the wing-to-fuselage joint. Ironically for a 644-kph (400 mph) airplane, Vought covered the wing with fabric behind the principal spar, a practice the firm also followed on the OS2U Kingfisher (see NASM collection).

When naval air strategists had crafted the specifications for the new fighter, the require for speed had overridden all other functionality targets. With this in thoughts, the Bureau of Aeronautics selected the most powerful air-cooled engine available, the R-2800. Vought assembled a team, lead by chief designer Rex Biesel, to design the ideal airframe about this strong engine. The group incorporated project engineer Frank Albright, aerodynamics engineer Paul Baker, and propulsion engineer James Shoemaker. Biesel and his team succeeded in developing a very quickly fighter but when they redesigned the prototype for production, they have been forced to make an unfortunate compromise.

The Navy requested heavier armament for production Corsairs and Biesel redesigned each and every outboard folding wing panel to carry three .50 caliber machine guns. These guns displaced fuel tanks installed in every single wing top edge. To replace this lost capacity, an 897-liter (237 gal) fuselage tank was installed in between the cockpit and the engine. To maintain the speedy and narrow fuselage profile, Biesel could not stack the cockpit on leading of the tank, so he moved it almost three feet aft. Now the wing totally blocked the pilot’s line of sight for the duration of the most vital stages of landing. The early Corsair also had a vicious stall, effective torque and propeller effects at slow speed, a brief tail wheel strut, major gear struts that often bounced the airplane at touchdown, and cowl flap actuators that leaked oil onto the windshield. These issues, combined with the lack of cockpit visibility, made the airplane almost not possible to land on the tiny deck of an aircraft carrier. Navy pilots quickly nicknamed the F4U the ‘ensign eliminator’ for its tendency to kill these inexperienced aviators. The Navy refused to clear the F4U for carrier operations until late in 1944, a lot more than seven years right after the project started.

This flaw did not deter the Navy from accepting Corsairs since Navy and Marine pilots sorely necessary an enhanced fighter to replace the Grumman F4F Wildcat (see NASM collection). By New Year’s Eve, 1942, the service owned 178 F4U-1 airplanes. Early in 1943, the Navy decided to divert all Corsairs to land-based United States Marine Corps squadrons and fill Navy carrier-based units with the Grumman F6F Hellcat (see NASM collection). At its ideal speed of 612 kph (380 mph) at six,992 m (23,000 ft), the Hellcat was about 24 kph (15 mph) slower than the Corsair but it was a joy to fly aboard the carrier. The F6F filled in splendidly until improvements to the F4U certified it for carrier operations. Meanwhile, the Marines on Guadalcanal took their Corsairs into combat and engaged the enemy for the first time on February 14, 1943, six months prior to Hellcat pilots on that battle-scared island initial encountered enemy aircraft.

The F4U had an quick influence on the Pacific air war. Pilots could use the Corsair’s speed and firepower to engage the more maneuverable Japanese airplanes only when the benefit favored the Americans. Unprotected by armor or self-sealing fuel tanks, no Japanese fighter or bomber could withstand for far more than a few seconds the concentrated volley from the six .50 caliber machine guns carried by a Corsair. Major Gregory &quotPappy&quot Boyington assumed command of Marine Corsair squadron VMF-214, nicknamed the ‘Black Sheep’ squadron, on September 7, 1943. During much less than five months of action, Boyington received credit for downing 28 enemy aircraft. Enemy aircraft shot him down on January three, 1944, but he survived the war in a Japanese prison camp.

In Might and June 1944, Charles A. Lindbergh flew Corsair missions with Marine pilots at Green Island and Emirau. On September three, 1944, Lindbergh demonstrated the F4U’s bomb hauling capacity by flying a Corsair from Marine Air Group 31 carrying three bombs every single weighing 450 kg (1,000 lb). He dropped this load on enemy positions at Wotje Atoll. On the September 8, Lindbergh dropped the first 900-kg (two,000 lb) bomb during an attack on the atoll. For the finale 5 days later, the Atlantic flyer delivered a 900-kg (2,000 lb) bomb and two 450-kg (1,000 lb) bombs. Lindbergh went ahead and flew these missions following the commander of MAG-31 informed him that if he was forced down and captured, the Japanese would nearly certainly execute him.

As of V-J Day, September 2, 1945, the Navy credited Corsair pilots with destroying two,140 enemy aircraft in aerial combat. The Navy and Marines lost 189 F4Us in combat and 1,435 Corsairs in non-combat accidents. Starting on February 13, 1942, Marine and Navy pilots flew 64,051 operational sorties, 54,470 from runways and 9,581 from carrier decks. During the war, the British Royal Navy accepted 2,012 Corsairs and the Royal New Zealand Air Force accepted 364. The demand was so fantastic that the Goodyear Aircraft Corporation and the Brewster Aeronautical Corporation also produced the F4U.

Corsairs returned to Navy carrier decks and Marine airfields for the duration of the Korean War. On September 10, 1952, Captain Jesse Folmar of Marine Fighter Squadron VMF-312 destroyed a MiG-15 in aerial combat more than the west coast of Korea. However, F4U pilots did not have several air-to-air encounters over Korea. Their major mission was to assistance Allied ground units along the battlefront.

Following the World War II, civilian pilots adapted the speedy bent-wing bird from Vought to fly in competitive air races. They preferred modified versions of the F2G-1 and -2 originally built by Goodyear. Corsairs won the prestigious Thompson Trophy twice. In 1952, Vought manufactured 94 F4U-7s for the French Navy, and these aircraft saw action more than Indochina but this order marked the end of Corsair production. In production longer than any other U.S. fighter to see service in Globe War II, Vought, Goodyear, and Brewster built a total of 12,582 F4Us.

The United States Navy donated an F4U-1D to the National Air and Space Museum in September 1960. Vought delivered this Corsair, Bureau of Aeronautics serial quantity 50375, to the Navy on April 26, 1944. By October, pilots of VF-ten had been flying it but in November, the airplane was transferred to VF-89 at Naval Air Station Atlantic City. It remained there as the squadron moved to NAS Oceana and NAS Norfolk. During February 1945, the Navy withdrew the airplane from active service and transferred it to a pool of surplus aircraft stored at Quantico, Virginia. In 1980, NASM craftsmen restored the F4U-1D in the colors and markings of a Corsair named &quotSun Setter,&quot a fighter assigned to Marine Fighter Squadron VMF-114 when that unit served aboard the &quotUSS Essex&quot in July 1944.

• • •

Quoting from Wikipedia | Vought F4U Corsair:

The Likelihood Vought F4U Corsair was a carrier-capable fighter aircraft that saw service mainly in Globe War II and the Korean War. Demand for the aircraft soon overwhelmed Vought’s manufacturing capability, resulting in production by Goodyear and Brewster: Goodyear-built Corsairs were designated FG and Brewster-constructed aircraft F3A. From the initial prototype delivery to the U.S. Navy in 1940, to final delivery in 1953 to the French, 12,571 F4U Corsairs had been manufactured by Vought, in 16 separate models, in the longest production run of any piston-engined fighter in U.S. history (1942–1953).

The Corsair served in the U.S. Navy, U.S. Marines, Fleet Air Arm and the Royal New Zealand Air Force, as nicely as the French Navy Aeronavale and other, smaller sized, air forces until the 1960s. It rapidly became the most capable carrier-based fighter-bomber of World War II. Some Japanese pilots regarded it as the most formidable American fighter of World War II, and the U.S. Navy counted an 11:1 kill ratio with the F4U Corsair.

F4U-1D (Corsair Mk IV): Constructed in parallel with the F4U-1C, but was introduced in April 1944. It had the new -8W water-injection engine. This adjust gave the aircraft up to 250&nbsphp (190&nbspkW) far more power, which, in turn, improved performance. Speed, for example, was boosted from 417 miles per hour (671&nbspkm/h) to 425 miles per hour (684&nbspkm/h). Since of the U.S. Navy’s require for fighter-bombers, it had a payload of rockets double the -1A’s, as nicely as twin-rack plumbing for an extra belly drop tank. Such modifications necessitated the require for rocket tabs (attached to totally metal-plated underwing surfaces) and bomb pylons to be bolted on the fighter, nonetheless, causing additional drag. Moreover, the role of fighter-bombing was a new task for the Corsair and the wing fuel cells proved also vulnerable and had been removed.[] The additional fuel carried by the two drop tanks would nonetheless allow the aircraft to fly relatively extended missions despite the heavy, un-aerodynamic load. The normal armament of six machine guns have been implemented as properly. The canopies of most -1Ds had their struts removed along with their metal caps, which had been utilized&nbsp— at one point&nbsp— as a measure to avoid the canopies’ glass from cracking as they moved along the fuselage spines of the fighters.[] Also, the clear-view style &quotMalcolm Hood&quot canopy utilised initially on Supermarine Spitfire and P-51C Mustang aircraft was adopted as standard equipment for the -1D model, and all later F4U production aircraft. Additional production was carried out by Goodyear (FG-1D) and Brewster (F3A-1D). In Fleet Air Arm service, the latter was known as the Corsair III, and both had their wingtips clipped by 8&quot per wing to enable storage in the reduce hangars of British carriers.

Steven F. Udvar-Hazy Center: Space Shuttle Enterprise (starboard view)

Image by Chris Devers

See much more photographs of this, and the Wikipedia article.

Specifics, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Nation of Origin:
United States of America

Dimensions:
All round: 57 ft. tall x 122 ft. lengthy x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Materials:
Aluminum airframe and body with some fiberglass attributes payload bay doors are graphite epoxy composite thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The initial Space Shuttle orbiter, &quotEnterprise,&quot is a full-scale test vehicle employed for flights in the atmosphere and tests on the ground it is not equipped for spaceflight. Though the airframe and flight control elements are like those of the Shuttles flown in space, this car has no propulsion program and only simulated thermal tiles due to the fact these attributes had been not required for atmospheric and ground tests. &quotEnterprise&quot was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-extended strategy-and-landing test flight system. Thereafter it was utilised for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred &quotEnterprise&quot to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

• • •

Quoting from Wikipedia | Space Shuttle Enterprise:

The Space Shuttle Enterprise (NASA Orbiter Automobile Designation: OV-101) was the very first Space Shuttle orbiter. It was constructed for NASA as element of the Space Shuttle program to execute test flights in the atmosphere. It was constructed without having engines or a functional heat shield, and was therefore not capable of spaceflight.

Originally, Enterprise had been intended to be refitted for orbital flight, which would have created it the second space shuttle to fly soon after Columbia. Even so, during the construction of Columbia, information of the final style changed, particularly with regard to the weight of the fuselage and wings. Refitting Enterprise for spaceflight would have involved dismantling the orbiter and returning the sections to subcontractors across the country. As this was an pricey proposition, it was determined to be significantly less expensive to develop Challenger around a physique frame (STA-099) that had been designed as a test post. Similarly, Enterprise was deemed for refit to replace Challenger following the latter was destroyed, but Endeavour was constructed from structural spares instead.

Service

Construction started on the very first orbiter on June four, 1974. Designated OV-101, it was originally planned to be named Constitution and unveiled on Constitution Day, September 17, 1976. A create-in campaign by Trekkies to President Gerald Ford asked that the orbiter be named after the Starship Enterprise, featured on the television show Star Trek. Although Ford did not mention the campaign, the president—who throughout Globe War II had served on the aircraft carrier USS&nbspMonterey&nbsp(CVL-26) that served with USS&nbspEnterprise&nbsp(CV-6)—said that he was &quotpartial to the name&quot and overrode NASA officials.

The design of OV-101 was not the exact same as that planned for OV-102, the first flight model the tail was constructed differently, and it did not have the interfaces to mount OMS pods. A big number of subsystems—ranging from main engines to radar equipment—were not installed on this vehicle, but the capacity to add them in the future was retained. As an alternative of a thermal protection program, its surface was mostly fiberglass.

In mid-1976, the orbiter was utilized for ground vibration tests, permitting engineers to evaluate information from an actual flight vehicle with theoretical models.

On September 17, 1976, Enterprise was rolled out of Rockwell’s plant at Palmdale, California. In recognition of its fictional namesake, Star Trek creator Gene Roddenberry and most of the principal cast of the original series of Star Trek have been on hand at the dedication ceremony.

Method and landing tests (ALT)

Major write-up: Strategy and Landing Tests

On January 31, 1977, it was taken by road to Dryden Flight Research Center at Edwards Air Force Base, to commence operational testing.

Although at NASA Dryden, Enterprise was used by NASA for a range of ground and flight tests intended to validate elements of the shuttle plan. The initial nine-month testing period was referred to by the acronym ALT, for &quotApproach and Landing Test&quot. These tests incorporated a maiden &quotflight&quot on February 18, 1977 atop a Boeing 747 Shuttle Carrier Aircraft (SCA) to measure structural loads and ground handling and braking traits of the mated method. Ground tests of all orbiter subsystems have been carried out to verify functionality prior to atmospheric flight.

The mated Enterprise/SCA combination was then subjected to five test flights with Enterprise unmanned and unactivated. The objective of these test flights was to measure the flight qualities of the mated mixture. These tests were followed with three test flights with Enterprise manned to test the shuttle flight manage systems.

Enterprise underwent five cost-free flights where the craft separated from the SCA and was landed beneath astronaut handle. These tests verified the flight qualities of the orbiter style and were carried out below numerous aerodynamic and weight configurations. On the fifth and final glider flight, pilot-induced oscillation issues have been revealed, which had to be addressed ahead of the very first orbital launch occurred.

On August 12, 1977, the space shuttle Enterprise flew on its personal for the initial time.

Preparation for STS-1

Following the ALT plan, Enterprise was ferried among several NASA facilities to configure the craft for vibration testing. In June 1979, it was mated with an external tank and solid rocket boosters (known as a boilerplate configuration) and tested in a launch configuration at Kennedy Space Center Launch Pad 39A.

Retirement

With the completion of vital testing, Enterprise was partially disassembled to allow specific elements to be reused in other shuttles, then underwent an international tour visiting France, Germany, Italy, the United Kingdom, Canada, and the U.S. states of California, Alabama, and Louisiana (in the course of the 1984 Louisiana World Exposition). It was also used to match-check the never-utilised shuttle launch pad at Vandenberg AFB, California. Lastly, on November 18, 1985, Enterprise was ferried to Washington, D.C., where it became property of the Smithsonian Institution.

Post-Challenger

Soon after the Challenger disaster, NASA regarded as employing Enterprise as a replacement. However refitting the shuttle with all of the necessary gear required for it to be utilized in space was considered, but alternatively it was decided to use spares constructed at the identical time as Discovery and Atlantis to develop Endeavour.

Post-Columbia

In 2003, right after the breakup of Columbia in the course of re-entry, the Columbia Accident Investigation Board performed tests at Southwest Research Institute, which used an air gun to shoot foam blocks of similar size, mass and speed to that which struck Columbia at a test structure which mechanically replicated the orbiter wing major edge. They removed a fiberglass panel from Enterprise’s wing to perform analysis of the material and attached it to the test structure, then shot a foam block at it. Even though the panel was not broken as a outcome of the test, the influence was sufficient to permanently deform a seal. As the reinforced carbon-carbon (RCC) panel on Columbia was 2.five occasions weaker, this recommended that the RCC major edge would have been shattered. Further tests on the fiberglass had been canceled in order not to threat damaging the test apparatus, and a panel from Discovery was tested to determine the effects of the foam on a similarly-aged RCC leading edge. On July 7, 2003, a foam influence test designed a hole 41&nbspcm by 42.five&nbspcm (16.1&nbspinches by 16.7&nbspinches) in the protective RCC panel. The tests clearly demonstrated that a foam impact of the sort Columbia sustained could seriously breach the protective RCC panels on the wing leading edge.

The board determined that the probable trigger of the accident was that the foam effect triggered a breach of a reinforced carbon-carbon panel along the major edge of Columbia’s left wing, permitting hot gases generated for the duration of re-entry to enter the wing and trigger structural collapse. This caused Columbia to spin out of handle, breaking up with the loss of the entire crew.

Museum exhibit

Enterprise was stored at the Smithsonian’s hangar at Washington Dulles International Airport just before it was restored and moved to the newly constructed Smithsonian’s National Air and Space Museum‘s Steven F. Udvar-Hazy Center at Dulles International Airport, where it has been the centerpiece of the space collection. On April 12, 2011, NASA announced that Space Shuttle Discovery, the most traveled orbiter in the fleet, will be added to the collection when the Shuttle fleet is retired. When that occurs, Enterprise will be moved to the Intrepid Sea-Air-Space Museum in New York City, to a newly constructed hangar adjacent to the museum. In preparation for the anticipated relocation, engineers evaluated the vehicle in early 2010 and determined that it was secure to fly on the Shuttle Carrier Aircraft after once more.

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