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Viking '75 Mars Lander Construction, Looking for Viking lander design/construction information
Tom Dahl
post May 17 2012, 12:38 AM
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Greetings all! I am searching for detailed construction and design information about the NASA Viking '75 Mars project hardware, particularly for the lander, aeroshell, base cover, and bioshield. Can anyone recommend good sources? I am especially looking for engineering drawings and under-construction photographs.

To set the stage, here is an album of about 100 drawings and photos which I've collected so far.

I have already read the "usual" books, such as NASA RP-1027 "Viking '75 Spacecraft Design and Test", the press kits, the scientific papers produced about the mission, a number of industry papers covering various instruments and subsystems, the major Martin Marietta books, etc. I am hoping to find additional sources. Any ideas?

Also, does anyone know if there are aeroshell, base cover, or bioshield components lurking in a museum or in storage somewhere?

FYI, I have visited three of the best landers still on Earth: The Proof Test Capsule in the Smithsonian NASM, the Flight Capsule 3 (backup) in the Museum of Flight near Seattle, and the Science Test Lander in the Virginia Air and Space Center. I've taken nearly 1,000 photos of the three of them (most of which are publicly available in other Picasa Web albums of mine). I've taken a few measurements, but I would dearly love to find more authoritative drawings of more hardware (interior, exterior, everything). I have begun submitting some Freedom of Information Act requests to NASA/JPL which has started to bear some trivial but kind of fun fruit.
---
Update as of March 2017: During the past few years I have been fortunate enough to collect a significant amount of information on the Viking lander hardware. My thanks to a number of organizations for providing me access to their resources:
Here is a list of on-line albums with Viking information that I have gathered. Essentially all the photographs - about 3500 currently - were taken by me (with the notable exception of those in the "Misc diagrams" album, which come from historic sources). The photos have descriptions that explain the major subject of each image. To see the descriptions with the current Google Photos web album interface, click on an image and then click the small letter i in circle (i) icon in the upper right corner. This displays an information panel that includes the description. You can also zoom and pan to see the full resolution image detail. Many images in a number of the albums show the 1000 or so measurements I have been able to capture from actual Viking hardware, thanks to the kind cooperation of the above folks.

Flight Capsule 3 in Seattle Museum of Flight (756 photos)
Dimensioned diagrams of the FC3 lander

PTC Lander at Smithsonian NASM 2013 (466 photos)
PTC Lander at Smithsonian NASM 2016 (888 photos)

Lander at Virginia Air and Space Center (622 photos)
Dimensioned diagrams of the VASC’s lander

Lander at California Science Center (456 photos)
Dimensioned diagrams of the CSC's lander

Misc diagrams, unusual photos (over 350 images)
Body assembly blueprints

Collector Head Shroud Unit at NASA LaRC (99 photos)
Biology instrument at Cleveland MoNH (36 photos)
Meteorology Sensor Assembly (60 photos)
Meteorology Electronics Assembly (22 photos)
Tape Recorder (53 photos)
High Gain Antenna photos and measurements (96 images)
XRFS Instrument (42 images)

Viking lander contractor historic scale model (14 images)
My Viking project documents collection

The main focus of my efforts during the past few years has been to create an accurate and high-fidelity digital 3D model of the Viking lander. I've chosen to use the SketchUp software to build the model because a near-full-featured free version is available, allowing other people to use my model. The 3D model itself, as a work-in-progress, is available via DropBox. I update that model file periodically as major elements get added. I've created an album containing numerous renderings of digital model components, and I have a YouTube channel with some videos about the modeling project. I have also uploaded the lander core body and the Surface Sampler Collector Head to the SketchUp 3D Warehouse so that other people can easily access those components (the 3D Warehouse can be accessed from within SketchUp, or via web browser). The file on DropBox lister earlier contains those components and others.
-- Tom
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tasp
post May 17 2012, 12:32 PM
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Can't remember where I read this, but at least one piece of a spare aeroshell assembly wound up in someones backyard.

Seems like I saw a pic somewhere. Maybe Sky and Telescope a LONG time ago.
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Tom Dahl
post Jun 21 2012, 02:40 AM
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I have begun creating a 3D model of the Viking lander, attempting to be fairly detailed and as accurate as I can manage (based on the references I have, including some 900 photographs I've taken of three authentic landers). I recently completed my first pass at the lander's sidebeam #1, which forms one third of the lander's hexagonal body. Here is a comparison between renderings of the model and photographs of the backup lander body in the Museum of Flight near Seattle.

The model linked above represents the solid machined aluminum beam without any of the brackets, fittings, and flanges which are bolted or screwed to the sidebeam. The attachment points for all those brackets etc. are represented as carefully-located bolt holes. As I understand it, each sidebeam consists of a lander-body long side and half of the adjacent two short sides. The three sidebeams are apparently connected to each other via the vertical landing leg primary support fittings, which are bolted across and under the joints between adjacent sidebeams. The top and bottom cover plates also help to hold the body together; fastener locations for those plates are included in the model.

Proportions of the model are based on dimensions I have taken from some authentic landers, various published references, and a lot of photo interpretation and cross-check. I have been careful to ensure that the various points of contact between the lander and its aeroshell are reconciled (three large bolts, one under each leg primary support fitting; six shear points, two under each sidebeam; and three guiderail roller assemblies).

If anyone has corrections or questions, I would be pleased to address them!
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Tom Dahl
post Jul 9 2012, 02:06 AM
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I am looking for a good-quality version of an image published in NASA Ref. Pub. 1027, "Viking '75 Spacecraft Design and Test Summary: Volume 1 - Lander Design" issued by the Langley Research Center in 1980. Figure 20 "Lander Body" (on page 25) is what I hope to find.

The PDF version of RP-1027 Vol.1 (10MB) on the NASA Technical Reports Server has an almost illegible image of Figure 20. I have examined two original printed copies of RP-1027 from nearly libraries; in both cases the original halftone printing of Figure 20 is fairly poor. Here is a version which I scanned at 400 DPI from one of the copies.

Does anyone know if a photographic print or high-resolution scan of that image is available in some archive somewhere? I recently sent a message to the "Contact Langley" web site asking about this image, in case that turns it up.

Edited to add: as a prior reply mentions, I am creating a 3D digital model of the lander. My intention is to make that model freely available, both as a 3D SketchUp mesh and as 2D blueprints. The purpose of the blueprint form is to aid my ultimate goal of scratch-building an actual model, probably 1/8th scale. My collection of published drawings and unusual photos (including "Figure 20" linked above, which shows the lander's internal Equipment Plate) are already shared, in case they help folks also interested in the Viking project.
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Tom Dahl
post Aug 11 2012, 04:10 AM
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I've now completed the first-pass 3D model of the lander's three sidebeams. Here are some comparison actual photos vs. renderings, and one render by itself (sidebeam 3 is in the lower right, #1 on the left, and #2 in the upper right, with meteorology boom mounting bracket attached):



This is only a small fraction of the job, but it's nice to see the shell of the lander in the round.
-- Tom
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Tom Dahl
post Aug 29 2012, 02:27 AM
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For those following at home smile.gif I have added the Viking lander's top cover plate to my 3D model. It was a challenge to reconcile the externally-visible features with Martin Marietta's drawing of the interior Equipment Plate (instrument locations, support posts, etc.). I've tried to minimize the discrepancies. Here is a line drawing of the overall body:
Attached Image

And here is a close-up of the right upper corner of sidebeam 2. Prominent are the mount for the meteorology boom and magnet cleaning brush (on the right corner), and large openings in the top cover for camera 1 (on the right), the biology and gas chromatograph mass spectrometer inlet processors (on the left), and thermal switch contactor for Radioisotope Thermoelectric Generator 1 (partly visible at top):
Attached Image

The current state of the 3D model is available here as a SketchUp file (6.8MB; hopefully it's downloadable).

I had a very enjoyable phone conversation today with Prof. Jim Tillman of the University of Washington, who along with his daughter were principal agents in saving and restoring the Flight Capsule 3 (backup) lander body. I'm hoping to return to visit the FC3 in the Museum of Flight near Seattle in a few weeks. I'm glad I could share a bit of my enthusiasm for the Viking program with Prof. Tillman and thank him for saving an important historic object.
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djellison
post Aug 29 2012, 03:41 AM
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There is a model - I'm not sure of its fidelity - at the California Science Center. If there are details there that could be useful, let me know and I'll head over with a camera.

Doug
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post Aug 29 2012, 09:38 AM
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IIRC, they've got the actual ground engineering test lander in the lobby of the National Air & Space Museum in DC. I wonder if the curators there have complied a dataset of public-domain information on same; might be worth an e-mail.


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Tom Dahl
post Aug 29 2012, 12:46 PM
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Hi Doug -- regarding the California Science Center's lander, thank you very much for the offer! I suspect that unit is a replica created by Penwal Prototypes, rather than an authentic Martin Marietta unit. I base this largely on the photo shown on the company's web site (look for the Viking Lander thumbnail), compared to on-line photos I've found of the CSC's lander. Details such as Camera 1's clear housing; the mock-up BIO and GCMS inlet processors; the silver foil bands on some leg's white cloth contamination fairing skins; the dark bands wrapping the meteorology boom cabling; the fuel tank and roll-control thrusters, and fuel-line routing and joints. I wrote to Penwal a few months ago asking about their replica and whatever references they may have had, but never received a response.

Overall I don't think it is authentic enough for my purposes, except I am very curious about the exposed camera 1. Did Penwal manage to acquire a surplus original ITEK facsimile camera unit? It seems out of character with the rest of the lander; too much detail. So I would very much enjoy seeing some photographs of that camera's innards (both the upper rotating opto-mechanical part, and the lower fixed electronics part) from various angles. If possible!

Hi nprev -- that's the Proof Test Capsule in the National Air and Space Museum. I've actually visited it three times in the last year, and accumulated about 460 photos of that fantastic unit. I have not yet attempted to contact the NASM archive division, which I really should do! Thanks for the nudge.
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Tom Dahl
post Nov 12 2012, 06:11 PM
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In September had the opportunity to spend a couple of days at the Museum of Flight near Seattle WA, and study the Viking lander Flight Capsule 3 (flight-backup) on display there. I took over 500 detail photographs of the lander. I recently completed processing (e.g., brighten shadows, diminish background distractions, add captions) and have uploaded them to a Google Picasa web album if anyone else is interested. They join about 180 photos of the FC3 I had taken a year ago.

The images are about 12MPixels in size. If you use Picasa web's magnifying-glass tool to see the full version, it usually takes five seconds or so before the complete image is available. Before then the little zoom-navigation widget only goes to about half size; the bar will re-scale to access the full detail when ready.

I also had a chance to meet Chris Vancil and Eckart Schmidt, both of whom worked to restore the FC3 for display (Eckart worked during the mission at Rocket Research Company on the terminal descent engines), and also Ron Hobbs of the museum staff. It's a great facility with an amazing collection.
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Tom Dahl
post Jun 7 2013, 03:57 PM
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A few months ago I was delighted to acquire a vintage set of blueprints of the "Viking Lander Body Structure Assembly" by Martin Marietta. With the permission of the UMSF administrators I am making scans of them available to all, hoping they provide useful information or at least enjoyable viewing. Here is a PicasaWeb album.

Overview

I suspect this set of blueprints was intended to guide assembly of the core body and its myriad brackets and fittings, rather than to support the fabrication of the various piece parts. There are extensive dimensions listed on the plans (which is what I find so valuable!), but not enough to fully define the parts. The print set consists of 35 sheets. Sheet 1 is composed of over 100 individual pages, consisting of notes, parts lists, and Design Change Notices. Sheets 2 through 35 are the actual shop drawings (one large page per sheet). In the above album I have shown the drawing sheets first, then the various notes pages. What follows in this message are some of my interpretations and explanations of the contents of this historic blueprint set.

Five Lander Body Variants

Martin Marietta's part number for the core lander body is 837J3100000. The plans show five (5) distinct variants of the body, denoted with tags -009, -010, -019, -020, and -029. All five have unique features (generally quite small). Variants 9 and 29 are fairly close to each other; 10, 19, and 20 have a lot in common. I would love to learn what variants correspond to which manufactured lander body units. There is a table on Sheet 1 page 2.004 which seems to list the five body variants with cryptic nomenclature:

ASSY/PART NO. --- NEXT ASSEMBLY --- TT
837J3100000-009 --- 837K0100000 --- PC (?Proof Test Capsule, PTC?)
837J3100000-010 --- 837J1000200 --- TM (?Thermal Effects Test Model, TETM?)
837J3100000-019 --- 837J2000200 --- SD (?Lander Structural Dynamic-Test Model, LDTM?)
837J3100000-020 --- 837J3000200 --- SS (?Lander Structural Static-Test Model, LSTM?)
837J3100000-029 --- 837K0100000 --- <blank>

I don't know the meaning of the "TT" column, but I'll guess that it represents the purpose or role of the lander units (perhaps Test Type). If so, I wonder if the table's two-letter designations represent the test units who's names I've added to the table in parentheses. For what it's worth, the Flight Capsule 3 (backup) lander body in Seattle's Museum of Flight has stenciling from Martin Marietta on sidebeam 2 which includes the notation "P/X 837K0100000-009" (as well as "S/N 0000003"). This suggests that the FC3 body is of variant type -009; perhaps the two Flight bodies FC1 and FC2 are also this type?

According to the set's revision history information, the initial release of the prints was on 27 June 1972. The revisions incorporated into this set occurred during the interval from 7 March 1973 to 15 January 1975 -- just seven months prior to launch of Viking 1. The last few revisions are mostly re-labeling of part-numbers or changes to fasteners. (Assembly of the Flight landers had been largely completed by late 1974.)

The lander body components are assigned Martin Marietta part numbers generally of the form 837J310xxxx-yyy, where xxxx identifies the component and yyy identifies a specific variant. For example 837J3100053-001 is the Surface Sampler's main mount (which happens to only come in one variant). The drawings often do not identify a specific variant in overview contexts, but all components have a formal variant tag. Sheet 1's parts-list pages include a group for each of the five lander variants (e.g., pages 9.001 to 9.021 contain the parts list for variant 9; pages 19.001 to 19.017 list parts for variant 19). I have collated all parts-lists pages into a spreadsheet showing which component variant belongs to which body variant(s). The spreadsheet also enumerates the drawing sheet(s) on which the given component is notably visible.

Scan Process

My paper copies of the drawing sheets are printed on C-size (17 x 22 inch) sheets, reduced from the master E-size (34 x 44 inch) sheets. The reduction is by a bit over 50%; Martin Marietta's reduction-copy process was a bit casual, yielding some skewed orientations accommodated by wide margins. I suspect this print set came from two different master original printings, because some sheet images are slightly larger with different borders than others. I have rectified the scans to be squared to the image area and of uniform size. I scanned the paper sheets at 600 DPI, which yields an image of about 120 million pixels (nearly 13K by 10K pixels). Google's PicasaWeb service currently allows a maximum image size of 50M pixels, therefore the album contains 300 DPI versions. Each sheet's image caption includes a link to a full-resolution version on DropBox.

A few of the drawing sheets are fairly clear prints, but most have extensive background mottling introduced in Martin Marietta's copy/print process. I have begun digitally cleaning the scans. In order to avoid loss of faint and obscured detail this is largely a manual masking job, which is very tedious. To date I have completed masking the first three drawing sheets (numbers 2, 3, 4). I hope to occasionally replace others with cleaned versions. A few of the sheets have annotations applied by a prior owner of the set. I will be removing such annotations during masking.

Lander Body Size

All linear dimensions are in inches and are usually specified to thousandths. These blueprints confirmed my earlier suspicion that the hexagonal body's long and short side lengths of 43 and 22 inches as stated in some NASA documents are incorrect. The long side length is approximately 43.359 inches; the published figure probably resulted from a simple rounding. However, the short side actual length is approximately 24.566 inches, which is about 10% larger than the published value. The height of the core body (excluding top and bottom covers and some integrally-machined protrusions) is exactly 18.000 inches, which agrees with the published value.

By the way the odd values for the side lengths are not direct design parameters. They are derived from the actual design parameters which are the distances from the body geometric center to the perpendicular midpoints of the sides. The design distance from the body center to the midpoint of a long side is specified as exactly 26.700 inches. From body center to midpoint of a short side is specified as exactly 32.125 inches. Application of some mathematics yields the side length values listed above. (I was pleased to discover that length estimates I had made earlier, based on known Aeroshell data, a scale USGS drawing of the lander, and knowledge of the nine-point interface between Aeroshell and lander, were only off by a few hundredths of an inch.)

The core lander hexagonal body consists of three (3) sidebeams, each machined from a single piece of aluminum. The three sidebeams are broadly similar but differ in numerous details (flanges, holes, stiffeners, etc.). The sidebeams are spliced or butted together with the vertical joints on the centerlines of the three landing legs. Therefore each sidebeam represents one complete long side and the halves of two adjacent short sides (appearing as angled short "wings" seen from above). Here is a rendering I've created of sidebeam 1.

Blueprint Notations

Each of the drawing sheets has a border dividing the sheet into an 8 by 8 grid of 64 zones. Zone coordinates range from 1 to 8 (bottom to top) and A to H (right to left). One portion of a drawing will frequently refer to another view or section on the same or a different sheet. Such zone references are denoted by a square containing number / letter coordinates, with a small sheet-number outside the upper right corner.
Attached Image

Large circles with multi-line text generally represent part numbers (e.g., 837J3101042-009) or fastener types (e.g., ST25D40-5-3).
Attached Image

Small circles containing a dash and three digits denote a simple flat shim part (of which the lander contains dozens). Sometimes the circle is omitted. The three-digit number is the variant tag for the shim's part number, all of which belong to the overall lander part number 837J3100000. For example, a notation of "-075" refers to shim 837J3100000-075. The parts-list pages show the shim's nominal sizes, with width and height larger than final to allow for trimming tolerances. The drawing sheets generally show the final shim sizes (which I've listed in the above spreadsheet when known).
Attached Image

Horizontal triangles containing a number are flags which reference one of the notes listed on pages 2.001 to 2.003 of sheet 1. Such notes detail process operations, assembly instructions, etc.
Attached Image

Small rectangles define construction reference planes, or specify tolerances in relation to a reference plane or point. In the following example the lower rectangle defines the associated feature (not seen in this fragment) to be Plane E. The upper rectangle specifies that this plane must be parallel ("||") to Plane A (defined elsewhere) within 0.020 inches.
Attached Image

A few features on the lander required a particular degree of machined surface finish. These are denoted with a stylized kind of letter J with an adjacent number (representing the roughness average value in microinches).
Attached Image

Anachronism

Most of sheet 18 is devoted to a prominent component which is not present on the final Flight-type lander bodies. It is an earlier design for the lander's Radar Altimeter Antenna mount (described in the parts list as "Support-LAA" and belonging to body variant 10). This photo of the Thermal Effects Test Model (TETM) has such a projecting assembly, visible at the right upper corner of the front of the inverted body (which corresponds to the lower left corner of sidebeam 2). This reinforces the idea that body variant -010 was used for the TETM, and that "TM" in the table I listed near the top of this write-up is the Thermal Model.
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Tom Dahl
post Aug 17 2013, 06:44 PM
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Thanks to the extremely kind assistance and cooperation from the staff at the California Science Center I have been able to take detailed measurements and photographs of the Viking lander on display at the CSC. I owe a huge debt of gratitude to David Gansen, Frank Hernandez, and Ken Phillips of the CSC senior staff for facilitating my recent visit -- thank you gentlemen!

My album of photographs is now available, with captions. Also available is an album of dimensioned diagrams totaling over 300 individual measurements.

I used a variety of tools to capture the measurements, principally a high-quality 6-inch dial caliper and 12-inch outside caliper. Longer or hard-to-reach features were measured with a small tape measure (with ability to directly measure diameters). Angular measurements were made with a digital angle gauge. Profiles were captured with a multi-tooth plastic contour gauge. Broad curves were captured with flexible curve templates. A few part outlines were directly traced on paper.

There was discussion earlier in this thread regarding the origin of the lander displayed at the CSC. Last year I had reservations regarding its authenticity based on its numerous mock-up components and the listing of this apparent unit on the Penwal Prototypes Signature Projects web site. Over a year ago I had written to Penwal asking about their involvement, but never received a reply. The CSC staff does not have much information regarding the nature of this lander. I have not been able to contact Lockheed Martin, who loaned the unit to the CSC. Then a couple of months ago I found and purchased a vintage 1981 Denver Post press photo which appears to show the same lander:
Attached Image

The original press caption with that image identifies some Martin Marietta employees who were installing the unit for display at the Denver Pavilion of Science Technology in May 1981. Unusual features matching the CSC's lander include the roll control thrusters (on fuel tank 2) mounted upside down; odd main fuel line routing; and not-quite Flight design of the High Gain Antenna (HGA) mast, drive head, and dish. In addition upon close inspection of the CSC's lander I observed numerous original Martin Marietta part and serial number stencils on lander components. Camera 1 is an authentic Itek lander camera (serial number 0001 according to its data stencil). All of this evidence convinces me now that the lander displayed at the California Science Center is one of the four test units created by Martin Marietta.

It is nevertheless true that various external components are clear mock-ups, including the Meteorology Boom Assembly; camera 2; the Inertial Reference Unit; the Radar Altimeter Electronics and Lander Pyrotechnic Control Assemblies; and the Valve Drive Amplifier (some of which are constructed of wood). Further trivia: leg 3's primary strut differs slightly from the final design; the three Terminal Descent Engines are Rocket Research Company original units, with TDE 1's gold housing featuring a slight variation (square cut-out for the throttle valve).

I had an extremely enjoyable day at the California Science Center, and hope to return in the future (there is much more work to do). Thanks again to David, Frank, and Ken for your hospitality and help!
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Tom Dahl
post Jun 23 2014, 02:43 AM
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Here is a progress report on my 3D digital model of the Viking lander. I had begun modeling the body in 2012, but started completely over this past winter. During late 2012 and 2013 I had acquired the original blueprints described in a prior reply, and captured a few hundred additional photographs of the landers in the Museum of Flight (Flight Capsule 3 aka the backup body) and the California Science Center (what I suspect is the Thermal Effects Test Model or TETM). These new data motivated me to re-start the model. Here is an overall view of the current effort:
Attached Image

Additional renders can be seen in this web album. The three core body sidebeams are done, as are the complex top and bottom body dust covers. Mounting brackets for the High Gain Antenna (HGA) deployment mechanism and the Meteorology Boom Assembly (MBA) are complete and give a bit of personality. The most recent additions are the primary support fittings for the three landing legs, and their associated internal body shims and splice-joint plates.

I estimate all features (such as fastener holes) are located to within five or so millimeters of true in the worst cases (requiring complex interpolation); most are within one or two mm or less. Many are exact thanks to the blueprints. The model is being created in the free version of SketchUp; all the component files are available in the following public DropBox folder.
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elakdawalla
post Jun 23 2014, 03:17 PM
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Nice work, and thanks for sharing the SketchUp files so that others may play smile.gif


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Tom Dahl
post Nov 23 2014, 04:17 AM
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Update on my project to create a 3D digital model of the Viking lander: I have added more and more core body fittings, brackets, equipment mounts, shims, etc. It's probably not yet recognizable as a Viking lander to most folks, but it's starting to look interesting. I've created a few simple fly-around (and -through) animations of the work-in-progress SketchUp model (in the preceding public directory the file named "Viking Lander" is the composite model with all components in place). They are listed on my brand-new YouTube channel. Here are individual links (with video times):

VL core body animation 1 (0:46)
VL core body animation 2 (2:46)
VL core body animation 3 (2:01)
VL core body animation 4 (1:56)

Edited to add: if your computer and network access allow it, viewing at full-screen in 720 or 1080 resolution makes for a nice clear image.
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