MGM-13 Mace

CGM/MGM-13 Mace
CGM/MGM-13 Mace
	CGM-13 test launch at Cape Canaveral
General information
Type	Cruise missile
Manufacturer	Glenn L. Martin Company
Status	Retired
Primary user	United States Air Force
History
Introduction date	1959
First flight	1956
Retired	Early 1970s
Developed from	MGM-1 Matador

Last updated October 04, 2024

The Martin Mace was a ground-launched cruise missile developed from the earlier Martin TM-61 Matador. It used a new self-contained navigation system that eliminated the need to get updates from ground-based radio stations, and thereby allowed it to fly further beyond the front lines. To take advantage of this longer practical range, Mace was larger than Matador and could travel a longer total distance.

The original A model used a ground-mapping radar system which required the missile to fly at low to medium altitudes. In 1959 a new inertial navigation system was introduced that offered similar accuracy but had no altitude limitation. By flying at higher altitudes the missile's range almost doubled with no other changes. This led to the B model of 1961, which was limited to fixed launching sites, unlike the A model's mobile trailers.

Mace was replaced by the MGM-31 Pershing missile by then Secretary of Defence Robert McNamara, and later in its role as a cruise missile for West Germany, by the BGM-109G Ground Launched Cruise Missile.^[1]

Introduced during a period of changing nomenclature, they were originally designated TM-76A and TM-76B for "tactical missile" until 1963, then as MGM-13A for Mobile Ground-launched Missile and CGM-13 for Coffin Ground-launched Missile.

History

Matador

The MGM-1 Matador was essentially an updated version of the V-1 flying bomb, replacing the V-1's pulsejet with a much more efficient turbojet engine. This allowed the missile to travel much longer distances. At the time, inertial navigation systems (INS) could not provide the desired 1 mile (1.6 km) accuracy at these longer distances, so Matador used a simple autopilot that was updated with corrections radioed to it from ground-based radar stations spread along its path. This system had the obvious disadvantage that it could only attack targets within a certain range of the ground-based stations; as the missile continued on its last path it would grow increasingly inaccurate. While this made it useful for attacks against targets near the front, like troop concentrations, it meant more important targets beyond the front, like airbases, might be too far to effectively attack. It also meant the system was subject to enemy jamming as well as more mundane issues with radio reception.

Mace A

In the early 1950s, Goodyear Aircraft Corporation began the development of the ATRAN (Automatic Terrain Recognition And Navigation) navigation system. This was based on taking photographs of a radar display at key points along the flight path of a radar-equipped aircraft. The photographs were automatically taken at timed intervals using a 35mm film movie camera. The film was then placed in the missile, which was equipped with the same radar system. At timed intervals, the movie would advance a frame while being moved horizontally across the radar display. At some point during the movement, the light output is maximized, indicating the position where the film most closely matches the display. The angle of the film at that instant indicates the direction the missile needs to turn to return to its pre-planned route.

ATRAN had the advantage that it was not subject to a maximum range or jamming issues, and in theory, could attack any target within range of the missile. It had the significant disadvantage that it could only attack pre-selected targets, unlike the radio system which would be directed at any target at any time. Any particular missile could be directed at a selected target by changing the film, but targets of opportunity could not be attacked unless they happened to lie along an existing path. Moreover, as the system compared the radar image to one made prior to flight, it was difficult to make maps much beyond the peacetime borders. This was later addressed by developing a method that used small models based on topographical maps to produce the films for any given flight, allowing the missile to follow paths that could not be pre-flown.

The ATRAN system was experimentally fit to a Matador beginning in August 1952. This led to a production contract in June 1954 for what was initially known as TM-61B Matador B. To take advantage of the potential range, Matador was modified with a longer fuselage to hold more fuel and modified the wings to be shorter. All-up weight increased to 18,750 pounds (8,500 kg) and range increased to 800 miles (1,300 km). To enhance mobility, Martin designed the Mace's wings to fold for transport, whereas the Matador's wings were transported separately and then bolted on for flight. Flight testing began in 1956, and the missile received its new name in early 1958.

USAF deployed the Mace "A" in West Germany in 1959 at Sembach Air Base, where it briefly served alongside the Matador before the latter was phased out of service in 1962. A total of 6 active missile squadrons were eventually equipped with the Mace "A" at Sembach Air Base and Hahn Air Base under the 38th Tactical Missile Wing. In South Korea, the 58th Tactical Missile Group became combat-ready with 60 TM-61s in January 1959. It ceased operations in March 1962, a few months after the 498th Tactical Missile Group in December 1961 took up positions in semi-hardened sites on Okinawa.

Mace B

Rapid development in guidance systems quickly rendered ATRAN obsolete. In 1959, a modified version replacing ATRAN with the AC Spark Plug AChiever INS was developed as TM-76B. A major advantage was that the ATRAN radar system scanned the horizon in front of the missile and thus had to fly at low altitudes in order to produce enough vertical relief. By moving to a pure INS, there was no longer any limitation on altitude and by flying higher the range increased to about 1,300 miles (2,100 km) with no other changes. The downside to the INS approach is that it requires an accurate survey of the launch point, so the system could no longer be mobile. This led to the B models being launched from hardened "coffin" launchers. The first TM-76B launch was on 11 July 1960.

Mace "B" missiles began were first deployed to Okinawa in 1961^[2] and remained operational in Europe and the Pacific. The two squadrons of TM-76B/CGM-13C continued on active duty in USAFE until December 1969. After being taken offline, some missiles were used as target drones because their size and performance resembled crewed aircraft.

Variants

YTM-61B Matador B: Development missiles. Redesignated YTM-76 Mace in 1958, and later MGM-13A Mace in 1963 (not to be confused with the 1964 MGM-13A).^[3]
QYTM-61B Matador B: Recoverable test vehicles. The "Q for drone" mission modifier before the "Y for test" status prefix was unusual, but appeared on official documents.^[3]
TM-76A Mace A: First production version, equipped with ATRAN terrain-matching radar navigation. Redesignated MGM-13B in 1963, and later MGM-13A in 1964.^[3]
TM-76B Mace B: Version with an inertial navigation system and increased range. Redesignated CGM-13C in 1963, and later CGM-13B in 1964.^[3]

Locations

Mace A and B types have been deployed in Japan and former West-Germany

Japan, Okinawa island: 873d Tactical Missile Squadron kept 32 Mace missiles on constant alert in underground bunkers at 4 Okinawa launch sites assigned to Kadena Airbase and located at Bolo Point in Yomitan, Onna Point, White Beach and at Kin just north of Camp Hansen.
West Germany: 38th Tac Msl Wing kept 90 missiles on alert at above and underground launcher sites assigned to Sembach Airbase (sites at Mehlingen, Enkenbach and Grünstadt); to Hahn Airbase (sites at Wüscheim, Kirchberg and Hundheim) and to Bitburg Airbase (sites at Steinborn, Idenheim and Rittersdorf)

Survivors

Below is a list of locations which have a Mace missile in their collection or on display:

Air Force Space & Missile Museum, Cape Canaveral Air Force Station, Florida. TM-76B / CGM-13B, AF Ser. No. 60-0715, but restored and marked as AF Ser. No. 59-4871. Originally assigned to the U.S. Air Force Tactical Missile School, 4504th Missile Training Wing, Orlando Air Force Base, Florida.
Air Force Armament Museum, Eglin Air Force Base, Florida. CGM-13, AF Ser. No. 59-4860
Museum of Aviation, Robins Air Force Base, Georgia. MGM-13A, AF Ser. No. 58-1465^[4]
National Museum of the United States Air Force, Wright-Patterson Air Force Base, Dayton, Ohio. This Mace "B" was based on Okinawa prior to its delivery to the museum in 1971.^[5]
Indiana Military Museum, Vincennes, Indiana. CGM-13B, AF Ser. No. 59-4871. This Mace B was assigned to the 4504th Missile Training Wing, Orlando AFB, Florida.^[6]
Belleview Park, Englewood, Colorado. Elevated outdoor display. AF Serial Number is unknown. Donated to the city by the Martin Company in the 1960s for use as playground equipment.^[7]
White Sands Missile Range Museum, New Mexico^[8]
Flagler Memorial Park, Flagler, Colorado, Mace A elevated and fenced display. AF Ser. No. 58-1463.
McDermott Post 452, American Legion, Mildred, Pennsylvania ^[9]
Ida County Veterans Memorial, Ida Grove, IA ^[10]

Specifications

General characteristics

Length: 44 ft 6 in;13.6 m
Diameter: 4 ft 6 in;1.4 m

Engine

First stage: 1× Thiokol solid rocket booster;100,000 lbf,445 kN
- Thrust:
Second stage: 1× Allison J33-A-41 turbojet; 5,200 lbf (23 kN)
- Thrust:

Technical information

Launch platform:
- MGM-13A: transporter erector launcher
- CGM-13B: underground bunker

Performance

Cruise speed: 650 mph (570 kn, 1,000 km/h)
Operating altitude: 750 to 40,000 ft (230 to 12,000 m)
Range: 1,400 mi (1,200 nmi, 2,300 km)

Warhead

Warhead: W28 thermonuclear warhead

Related Research Articles

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The 405th Tactical Missile Squadron is an inactive United States Air Force unit. It was first organized in January 1941 as the 15th Reconnaissance Squadron. In early 1942, shortly after the attack on Pearl Harbor, the squadron's ground echelon moved to reinforce American forces in Australia, although the air echelon remained in the United States for additional training until August. While completing its training, the unit was redesignated the 405th Bombardment Squadron. The squadron moved forward through New Guinea and the Philippines, earning three Distinguished Unit Citations for its combat actions, operating from Okinawa in the closing month of the war. Following V-J Day, it moved to Japan and became part of the occupation forces until inactivating in April 1949.

The 823rd Tactical Missile Squadron is an inactive United States Air Force unit. Its last assignment was with the 38th Tactical Missile Wing at Sembach Air Base, Germany, where it was inactivated on 25 September 1966, as the A model of the MGM-13 Mace was phased out of operation.

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Matador Automatic Radar Control (MARC) was a command guidance system for the Martin MGM-1 Matador ground launched cruise missile that used combination radar/computer/communication centrals for ground-directed bombing. As for the earlier ground central used with the X-10 aircraft,* MARC had an "Air Link" from the ground for control and an airborne AN/APW-11A radar transponder on the missile for ranging. A series of "MSQ sites", each with a mobile AN/MSQ-1A control set in 3 vans had an automatic tracking radar to geolocate the Matador up to ~600 nmi. MARC provided command guidance during the "mid-course phase" after Matador/MARC contact was established following the missile launch off the Zero Length Launcher and until an MSQ transmitted the dive ("dump") command to start the flight path toward the target. Originating in the Caltech/Martin "ZEL Project" and developed as part of weapon system "Project MX 771" at the "Air Force Missile Test Center, Cocoa, Florida"; MARC had accuracy at "crossover into enemy territory" of ~500 ft (150 m) guidance, and at an AN/MSQ-1A range of 165 nautical miles –a CEP of 2,700 ft (820 m).

References

Mindling, George, and Bolton, Robert, 'U.S. Air Force Tactical Missiles 1949–1969 The Pioneers', 2008, Lulu Press

↑ Lanning, Randall L. (15 April 1992). United States Air Force Ground Launched Cruise Missiles: A Study in Technology, Concepts, and Deterrence. Air War College, United States Air Force. AD-A258 351.
↑ "Mace B". Air Force Space and Missile Museum. Archived from the original on 7 December 2014. Retrieved 5 December 2014.
1 2 3 4 "Martin MGM/CGM-13 Mace". www.designation-systems.net. Retrieved 25 May 2023.
↑ "MARTIN MGM-13A "MACE"", Aircraft collection, Museum of Aviation, archived from the original on 24 June 2016.
↑ US Air Force Museum Foundation. US Air Force Museum. p. 94.
↑ Indiana Military Museum .
↑ "Martin TM-76 Mace - Englewood, Colorado - Static Aircraft Displays on Waymarking.com". www.waymarking.com.
↑ "Matador, Mace", WSMR History, archived from the original on 21 January 2013, retrieved 4 January 2013.
↑ "Mildred, PA - MGM-13 Mace Missile". RoadsideAmerica.com.
↑ "CGM-13B Mace Missile Historical Marker". www.hmdb.org. Retrieved 27 August 2020.

External links

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Text is available under the CC BY-SA 4.0 license; additional terms may apply.
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[1] Lanning, Randall L. (15 April 1992). United States Air Force Ground Launched Cruise Missiles: A Study in Technology, Concepts, and Deterrence. Air War College, United States Air Force. AD-A258 351.

[afspace-2] "Mace B". Air Force Space and Missile Museum. Archived from the original on 7 December 2014. Retrieved 5 December 2014.

[:0-3] 1 2 3 4 "Martin MGM/CGM-13 Mace". www.designation-systems.net. Retrieved 25 May 2023.

[4] "MARTIN MGM-13A "MACE"", Aircraft collection, Museum of Aviation, archived from the original on 24 June 2016.

[5] US Air Force Museum Foundation. US Air Force Museum. p. 94.

[6] Indiana Military Museum .

[7] "Martin TM-76 Mace - Englewood, Colorado - Static Aircraft Displays on Waymarking.com". www.waymarking.com.

[8] "Matador, Mace", WSMR History, archived from the original on 21 January 2013, retrieved 4 January 2013.

[9] "Mildred, PA - MGM-13 Mace Missile". RoadsideAmerica.com.

[10] "CGM-13B Mace Missile Historical Marker". www.hmdb.org. Retrieved 27 August 2020.

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v t e Martin and Martin Marietta aircraft
Model numbers	57 60 63 66 67 70 71 73 74 75 77 83 85 117 118 119 120 122 123 125 127 129 130 133 139 145 146 156 158 162 166 167 170 179 182 187 189 190 193 202 205 210 219 223 234 237 247 259 270 271 272 274 275 290 303 307 313 316 317 321 327
Airliners	M-130 Clipper M-156 Russian Clipper 2-0-2 3-0-3 4-0-4
Attack aircraft	A-15 A-22 A-23 A-30 A-45 AM
Bombers	B-10 B-12 XB-13 XB-14 XB-16 B-26 XB-27 B-33 B-48 XB-51 B-57 XB-68 BM MB-1 NBS-1
Maritime patrol	PBM XP2M P3M P4M P5M P6M P7M
Military transports	C-3 JRM RM
Military trainers	T/TT N2M
Scout/Torpedo bombers	S TM T2M T3M T4M T5M T6M
Reconnaissance aircraft	MO-1 M2O-1 MS-1 RB-57D RB-57F
Observation aircraft	XO-4
Martin Marietta	845 SV-5J X-23 X-24A/B

v t e 1963 United States Tri-Service missile designations, 1963–present
1–50	MGM-1 RIM-2 MIM-3 AIM-4 MGM-5 RGM-6 AIM-7 RIM-7 RIM-8 AIM-9 CIM-10 PGM-11 AGM-12 CGM-13/MGM-13 MIM-14 RGM-15 CGM-16 PGM-17 MGM-18 PGM-19 ADM-20 MGM-21 AGM-22 MIM-23 RIM-24 HGM-25A LGM-25C AIM-26 UGM-27 AGM-28 MGM-29 LGM-30 MGM-31A/B (MGM-31C) MGM-32 MQM-33 AQM-34 AQM-35 (I) LGM-35 (II) MQM-36 AQM-37 AQM-38 MQM-39 MQM-40 AQM-41 MQM-42 FIM-43 UUM-44 AGM-45 MIM-46 AIM-47 AGM-48 XLIM-49 LIM-49 RIM-50
51–100	MGM-51 MGM-52 AGM-53 AIM-54 RIM-55 PQM-56 MQM-57 MQM-58 RGM-59 AQM-60 MQM-61 AGM-62 AGM-63 AGM-64 AGM-65 RIM-66 RIM-67 AIM-68 AGM-69 LEM-70 BGM-71 MIM-72 UGM-73 BQM-74 BGM-75 AGM-76 FGM-77 AGM-78 AGM-79 AGM-80 AQM-81 AIM-82 AGM-83 AGM-84/RGM-84/UGM-84 AGM-84E AGM-84H/K RIM-85 AGM-86 AGM-87 AGM-88 UGM-89 BQM-90 AQM-91 FIM-92 "AIM-92" XQM-93 YQM-94 AIM-95 UGM-96 AIM-97 YQM-98 LIM-99 LIM-100
101–150	RIM-101 PQM-102 AQM-103 MIM-104 MQM-105 BQM-106 MQM-107 BQM-108 BGM-109/AGM-109/RGM-109/UGM-109 BGM-109G BGM-110 BQM-111 AGM-112 RIM-113 AGM-114 MIM-115 RIM-116 FQM-117 LGM-118 AGM-119 AIM-120 CQM-121/CGM-121 AGM-122 AGM-123 AGM-124 RUM-125/UUM-125 BQM-126 AQM-127 AQM-128 AGM-129 AGM-130 AGM-131 AIM-132 UGM-133 MGM-134 ASM-135 AGM-136 AGM-137 CEM-138 RUM-139 MGM-140 ADM-141 AGM-142 MQM-143 ADM-144 BQM-145 MIM-146 BQM-147 FGM-148 PQM-149 PQM-150
151–200	FQM-151 AIM-152 AGM-153 AGM-154 BQM-155 RIM-156 MGM-157 AGM-158A/B AGM-158C AGM-159 ADM-160 RIM-161 RIM-162 GQM-163 MGM-164 RGM-165 MGM-166 BQM-167 MGM-168 AGM-169 MQM-170 MQM-171 FGM-172 GQM-173 RIM-174/AIM-174B MQM-175 AGM-176 BQM-177 MQM-178 AGM-179 AGM-180 AGM-181 LGM-182 AGM-183 RGM-184 MQM-185 MQM-186 AGM-187
201–	AIM-260 MIM-401
Undesignated	Aequare ASALM Brazo Common Missile GBI HALO HACM Have Dash JSM KEI LREW LRHW MA-31 MSDM NCADE NLOS OpFires PrSM Senior Prom Sprint Wagtail M30 GMLRS/M31 GMLRS-U GLSDB
See also: United States tri-service rocket designations post-1963 Drones designated in UAV sequence

v t e United States Air Force system numbers
100–199	100 101 P 102 103 104 105 106¹ 107 A-1 A-2 108¹ 109¹ 110 111¹ 112 113¹ 114¹ 115¹ 116¹ 117 L M 118 A L P 119 C/F E L T Y 120 121 122 123 124 125 126 127¹ 128 129 130 131 132 A B 133 134¹ 135 136¹ 137¹ 138 139 140 141¹ 142 143–197¹ 198 199 B C D Y
200–299	200 201 A/L B/W E 202 203¹ 204 205 206 207¹ 208 209¹ 210 211¹ 212 213 214 215¹ 216 217 218 219¹ 220 221 222 A G 223¹ 224 225¹ 226 227–238¹ 239 240–278¹ 279 280–298¹ 299
300–399	300 301¹ 302 303 304¹ 305¹ 306 A/L B 307 308 309 310¹ 311¹ 312¹ 313¹ 314 315 A-1 A-2 316 317 318¹ 319 320¹ 321 322¹ 323 324 L M/N 325 326 327 E 328 E 329 F 330¹ 331¹ 332¹ 333¹ 334¹ 335 336 337 338–379¹ 380 A/B/E/F/N P 381–397¹ 398 399 A B
400–499	400 B/C/N E G/H M 401 402 403¹ 404 405 B C D 406¹ 407 408¹ 409¹ 410 E L 411 E L 412 413 414 L M 415 416 L M (I) M (II) P Q 417 418 L M 419¹ 420 L/W 421¹ 422 423 424 425 426 L M 427 L M 428 A L 429 430 431 G (I) G (II) 432 433 434 435 A L 436 437 438 439 440 441 A D L 442 443 444¹ 445 L M 446 447 448¹ 449¹ 450 451 D L 452 453 454¹ 455 456 457¹ 458 459 460 L 461 462 463 464 465 466 467 468 469 470 471 L (I) L (II) 472 473 474 L N 475¹ 476 E 477 478 A T 479¹ 480 481 L 482 E L M/Z 483 484 L M N 485 L Z 486 487 488 489 490 L M 491¹ 492 493 494 495 L (I) L (II) 496 497 A L (I) L 498 A C D E L 499 A C D
500–599	500 501–519¹ 520 521–529¹ 530 531–541¹ 542 543–549¹ 550 A E 551–559¹ 560 A F 561–569¹ 570 571–579¹ 580 A E 581–589¹ 590 591 592 593–599¹
600–699	600 601 A L 602 A L 603 A L 604 605 606 607 608¹ 609 610¹ 611¹ 612¹ 613¹ 614 615¹ 616 617¹ 618 619¹ 620 621 A/B (I) B (II) 622 623 624 625 626¹ 627 628¹ 629¹ 630¹ 631¹ 632 633 634 A B 635 636¹ 637¹ 638 639 640 641 642 643 644¹ 645¹ 646¹ 647¹ 648 A D P 649 A B C D E F L P 650 651 652 653¹ 654¹ 655 A (I) A (II) P 656 657¹ 658¹ 659¹ 660 661 662¹ 663¹ 664 665 A (I) A (II) 666 A C/P 667 668 669¹ 670 671¹ 672 A M/P 673¹ 674 675 676¹ 677¹ 678¹ 679 680 681 D E 682¹ 683 A J V 684¹ 685 686 687 J P 688¹ 689¹ 690 691 C X Z 692¹ 693 694¹ 695 A B C L N P Q R S (I) S (II) 696¹ 697¹ 698¹ 699¹
700–799	700–735¹ 736 737¹ 738¹ 739¹ 740¹ 741 742 743 744¹ 745 746–753¹ 754 755–799¹
800–899	800¹ 801¹ 802 L (I) L (II) 803¹ 804¹ 805¹ 806 807 808–816¹ 817 818¹ 819¹ 820¹ 821¹ 822¹ 823 824–831¹ 832 833¹ 834 835–845¹ 846 847–899¹
900–999	900–951¹ 952 853¹ 854¹ 855¹ 956 957–967¹ 968
¹ Unknown or not assigned