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These are the user uploaded subtitles that are being translated: 1 00:00:03,103 --> 00:00:06,103 --captions by vitac-- Www.Vitac.Com 2 00:00:06,103 --> 00:00:09,068 Captions paid for by Discovery communications 3 00:00:51,931 --> 00:00:53,413 Narrator: Industrial machines 4 00:00:53,413 --> 00:00:56,137 Often have heavy loads To lift or pull. 5 00:00:56,137 --> 00:00:58,103 Whether It's a dragline excavator 6 00:00:58,103 --> 00:00:59,931 Working in an open-pit mine, 7 00:00:59,931 --> 00:01:03,000 An oil-drilling rig, A construction crane, 8 00:01:03,000 --> 00:01:04,793 Or farm machinery, 9 00:01:04,793 --> 00:01:08,517 The weight is borne By ultrastrong wire ropes. 10 00:01:12,655 --> 00:01:14,241 Industrial-wire ropes 11 00:01:14,241 --> 00:01:18,241 Typically range from 8/10" to 5" In diameter. 12 00:01:18,241 --> 00:01:20,137 Besides machinery applications, 13 00:01:20,137 --> 00:01:22,103 They also serve As support cables 14 00:01:22,103 --> 00:01:23,827 For large static structures, 15 00:01:23,827 --> 00:01:26,965 Such as bridges And stadium roofs. 16 00:01:26,965 --> 00:01:30,206 Manufacturing a wire rope Begins with steel wire 17 00:01:30,206 --> 00:01:35,068 That's anywhere from 3/1,000" To 3/10" in diameter. 18 00:01:35,068 --> 00:01:38,034 The first step is to wind Several of these wires together 19 00:01:38,034 --> 00:01:39,482 Into a strand. 20 00:01:39,482 --> 00:01:40,793 How many wires per strand 21 00:01:40,793 --> 00:01:43,103 Depends on the job The rope will perform, 22 00:01:43,103 --> 00:01:44,620 Because different applications 23 00:01:44,620 --> 00:01:47,413 Require different degrees Of flexibility and strength. 24 00:01:47,413 --> 00:01:49,793 Each wire is spooled Onto a steel bobbin 25 00:01:49,793 --> 00:01:51,931 And loaded Onto a stranding machine, 26 00:01:51,931 --> 00:01:54,586 Which is essentially A giant winder. 27 00:01:54,586 --> 00:01:57,827 There can be as many As 64 wires in a strand, 28 00:01:57,827 --> 00:02:01,758 Although the typical range Is between 19 and 36. 29 00:02:01,758 --> 00:02:04,482 The twisting wires Converge in a die 30 00:02:04,482 --> 00:02:07,448 That forms them To the required diameter. 31 00:02:07,448 --> 00:02:09,275 Lubrication is critical, 32 00:02:09,275 --> 00:02:12,517 And not merely to help the wires Move smoothly through the die. 33 00:02:12,517 --> 00:02:14,344 It also penetrates within 34 00:02:14,344 --> 00:02:17,103 To allow slight movement Between the wires. 35 00:02:17,103 --> 00:02:19,862 This increases their life span 36 00:02:19,862 --> 00:02:22,172 And prevents the strand From seizing. 37 00:02:22,172 --> 00:02:25,655 The strand exits the machine Saturated in lubricant. 38 00:02:25,655 --> 00:02:29,448 A large rubber band skims The excess off the surface. 39 00:02:31,344 --> 00:02:35,862 The strand now travels Through a row of straighteners. 40 00:02:35,862 --> 00:02:38,586 These heavy rollers Apply vertical pressure, 41 00:02:38,586 --> 00:02:40,655 Effectively erasing The wire's memory 42 00:02:40,655 --> 00:02:43,517 Of being spooled on a bobbin Prior to stranding. 43 00:02:43,517 --> 00:02:46,206 This prevents the wires From unraveling. 44 00:02:48,482 --> 00:02:49,793 This cross-section 45 00:02:49,793 --> 00:02:53,517 Shows all the wires Inside the finished strand. 46 00:02:53,517 --> 00:02:56,620 The clothespin gives you A sense of its size. 47 00:02:56,620 --> 00:02:58,758 Wire strands are by themselves 48 00:02:58,758 --> 00:03:02,517 Typically used As structural support cables. 49 00:03:02,517 --> 00:03:06,137 To make wire ropes used in Machinery and for heavy lifting, 50 00:03:06,137 --> 00:03:09,793 They take several of these wire Strands and wind them together 51 00:03:09,793 --> 00:03:13,448 On a far bigger and stronger Machine called a closer. 52 00:03:17,310 --> 00:03:20,862 They make this particular rope From six wire strands. 53 00:03:20,862 --> 00:03:23,275 Before the strands Converge in the die, 54 00:03:23,275 --> 00:03:26,689 Rollers pre-shape them Into a corkscrew-like form. 55 00:03:26,689 --> 00:03:30,551 The strands then enter the die, Twisting together over a core, 56 00:03:30,551 --> 00:03:33,793 Which is itself A small steel-wire rope. 57 00:03:33,793 --> 00:03:35,379 A core at the center Of the cable 58 00:03:35,379 --> 00:03:37,689 Provides additional strength. 59 00:03:37,689 --> 00:03:41,241 This cable's finished diameter Is 3 1/2". 60 00:03:41,241 --> 00:03:44,689 However, there are always Small variations here and there, 61 00:03:44,689 --> 00:03:47,000 So now Four calibration rollers, 62 00:03:47,000 --> 00:03:49,724 Two compressing vertically, Two horizontally, 63 00:03:49,724 --> 00:03:53,931 Correct the cable to the right Diameter all along its length. 64 00:03:53,931 --> 00:03:56,931 The finished cable Winds onto a big steel reel, 65 00:03:56,931 --> 00:03:58,793 Ready for shipping. 66 00:04:02,034 --> 00:04:06,206 The factory tests random samples In its quality-control lab. 67 00:04:06,206 --> 00:04:08,586 There, a machine measures The tensile strength -- 68 00:04:08,586 --> 00:04:12,862 How much pulling force The cable can withstand. 69 00:04:12,862 --> 00:04:17,000 The machine pulls the cable At both ends until it snaps. 70 00:04:17,000 --> 00:04:18,448 [ cable snaps ] 71 00:04:18,448 --> 00:04:23,379 For this mega cable, The breaking point was 104 tons. 72 00:04:23,379 --> 00:04:25,034 To pass the test, a cable 73 00:04:25,034 --> 00:04:28,724 Must exceed the tensile strength It's designed to withstand. 74 00:04:28,724 --> 00:04:32,551 For certain demanding Applications, such as mining, 75 00:04:32,551 --> 00:04:34,931 Wire ropes Are double-coated in plastic 76 00:04:34,931 --> 00:04:37,655 To protect Against wear and tear. 77 00:04:37,655 --> 00:04:39,413 To prepare the plastic, The factory 78 00:04:39,413 --> 00:04:42,931 Mixes a recipe of clear And colored plastic pellets. 79 00:04:42,931 --> 00:04:46,482 An extrusion machine heats The pellets until they liquefy, 80 00:04:46,482 --> 00:04:48,965 Then forces the molten plastic Through a die, 81 00:04:48,965 --> 00:04:51,551 Coating the rope As it passes through. 82 00:04:53,862 --> 00:04:56,137 As the rope Exits the extrusion machine, 83 00:04:56,137 --> 00:04:57,793 It passes through water, 84 00:04:57,793 --> 00:05:00,758 Which cools and hardens The hot plastic. 85 00:05:02,620 --> 00:05:05,206 The plastic not only jackets The rope's surface, 86 00:05:05,206 --> 00:05:08,413 It also provides cushioning When on the jobsite, 87 00:05:08,413 --> 00:05:12,310 The strands inside rub against Each other as the rope moves. 88 00:05:12,310 --> 00:05:13,965 By reducing wear and tear 89 00:05:13,965 --> 00:05:16,551 On the steel Both internally and externally, 90 00:05:16,551 --> 00:05:21,827 Plastic coating can extend The life of a rope by up to 50%. 91 00:05:21,827 --> 00:05:23,724 A cable's internal construction 92 00:05:23,724 --> 00:05:26,310 Determines its strength And flexibility. 93 00:05:26,310 --> 00:05:30,482 A structural one needs to be Strong, immobile, and taut, 94 00:05:30,482 --> 00:05:33,551 So it's a single strand Made of large wires, 95 00:05:33,551 --> 00:05:36,000 Whereas a moving rope And large machinery 96 00:05:36,000 --> 00:05:39,793 Contains many strands Made of smaller wires. 97 00:05:51,241 --> 00:05:54,000 Narrator: a living wall Is a vertical structure 98 00:05:54,000 --> 00:05:55,724 Covered with fully grown plants. 99 00:05:55,724 --> 00:05:58,482 This green screen Serves many purposes, 100 00:05:58,482 --> 00:06:02,241 Such as hiding an eyesore or Shielding an area for privacy. 101 00:06:02,241 --> 00:06:03,965 Some are installed In the ground, 102 00:06:03,965 --> 00:06:06,241 While others are mounted On building facades 103 00:06:06,241 --> 00:06:09,000 And have Integrated irrigation systems. 104 00:06:13,103 --> 00:06:15,172 Living walls Are modular systems. 105 00:06:15,172 --> 00:06:18,586 Each module Contains fully grown plants, 106 00:06:18,586 --> 00:06:20,000 So upon installation, 107 00:06:20,000 --> 00:06:22,793 The green-screen effect Is immediate. 108 00:06:22,793 --> 00:06:25,482 The plants Are hedera helix woerner, 109 00:06:25,482 --> 00:06:28,586 A variety of ivy that's highly Resistant to cold and drought. 110 00:06:31,896 --> 00:06:34,344 In the manufacturer's Greenhouses, 111 00:06:34,344 --> 00:06:37,793 Horticulturalists take cuttings From the mother plants... 112 00:06:41,034 --> 00:06:44,241 ...Then cut off the foliage And separate the leaves, 113 00:06:44,241 --> 00:06:46,965 Leaving each with a small stem. 114 00:06:52,620 --> 00:06:56,275 Then they plant the cuttings Five leaves to a pot. 115 00:07:00,034 --> 00:07:01,793 The soil is a secret recipe 116 00:07:01,793 --> 00:07:05,482 Of organic and Nonorganic materials and feed. 117 00:07:12,620 --> 00:07:14,827 Over the next month To six weeks, 118 00:07:14,827 --> 00:07:17,689 Each stem Develops a good root system. 119 00:07:19,758 --> 00:07:22,482 Meanwhile, workers Construct a welded frame 120 00:07:22,482 --> 00:07:24,827 Out of high-strength Carbon steel. 121 00:07:24,827 --> 00:07:28,827 The metal is galvanized So it's rust-proof. 122 00:07:28,827 --> 00:07:31,103 Once the frame is ready, They take a mat 123 00:07:31,103 --> 00:07:34,482 Made from biodegradable, Recycled coconut husks 124 00:07:34,482 --> 00:07:36,241 And fold it Into a planter box, 125 00:07:36,241 --> 00:07:38,896 Which fits Inside the bottom of the frame. 126 00:07:38,896 --> 00:07:42,448 Two side wires hold the box Securely in place. 127 00:07:44,000 --> 00:07:46,172 An automated machine Fills the box 128 00:07:46,172 --> 00:07:49,241 With the same soil mix Used for the cuttings. 129 00:07:53,103 --> 00:07:56,827 Then the horticulturalists Plant 13 pots of plants. 130 00:07:56,827 --> 00:07:59,482 That's 65 ivies per box. 131 00:08:05,758 --> 00:08:07,000 They wrap the longer stems 132 00:08:07,000 --> 00:08:08,620 Around the uprights Of the frame. 133 00:08:18,103 --> 00:08:20,517 The frames now move To the greenhouse, 134 00:08:20,517 --> 00:08:23,241 Where they're hooked up To an irrigation system. 135 00:08:26,965 --> 00:08:30,586 For the next 18 months or so, The plants grow, 136 00:08:30,586 --> 00:08:33,275 And as they do, The horticulturalists 137 00:08:33,275 --> 00:08:36,275 Keep wrapping the ends Around the uprights. 138 00:08:36,275 --> 00:08:38,551 This is called Training the plants. 139 00:08:46,448 --> 00:08:47,827 As the plants thicken, 140 00:08:47,827 --> 00:08:52,000 The nursery workers prune them To promote upward growth. 141 00:09:01,000 --> 00:09:03,724 The factory produces These green-screen modules 142 00:09:03,724 --> 00:09:07,862 In 3 heights, Ranging from about 3 to 7 feet. 143 00:09:07,862 --> 00:09:09,551 After installation, 144 00:09:09,551 --> 00:09:13,517 The plants can grow on-site To a total height of 13 feet. 145 00:09:17,137 --> 00:09:20,793 Each frame -- one module Of the living-wall system -- 146 00:09:20,793 --> 00:09:25,034 Is 4 feet wide, Making it easily transportable. 147 00:09:29,517 --> 00:09:33,379 At shipping time, workers load The screens 10 to a pallet 148 00:09:33,379 --> 00:09:36,137 And truck them To the installation site. 149 00:09:40,068 --> 00:09:44,000 Each module of the system Installs just like a fence. 150 00:09:44,000 --> 00:09:45,551 Workers embed a wooden post 151 00:09:45,551 --> 00:09:48,827 On either side Of where each screen will go 152 00:09:48,827 --> 00:09:50,793 And dig a trench That's the width and depth 153 00:09:50,793 --> 00:09:54,275 Of the planter box Running in between. 154 00:09:54,275 --> 00:09:56,517 They sit the screen In the trench, 155 00:09:56,517 --> 00:09:58,896 Then, with Galvanized-steel brackets, 156 00:09:58,896 --> 00:10:02,206 Clip it to the side posts At the top and bottom. 157 00:10:05,448 --> 00:10:07,793 Then they fill in the gaps With dirt. 158 00:10:17,620 --> 00:10:20,896 The screens have A 45-year life expectancy, 159 00:10:20,896 --> 00:10:23,689 And the leaves Remain on them year-round. 160 00:10:23,689 --> 00:10:26,275 This variety Is used on living walls 161 00:10:26,275 --> 00:10:28,793 In europe and warmer regions. 162 00:10:28,793 --> 00:10:30,000 In colder climates, 163 00:10:30,000 --> 00:10:33,172 The manufacturer uses A hardier species of ivy 164 00:10:33,172 --> 00:10:36,827 That stays green even Throughout harsh, snowy winters. 165 00:10:50,793 --> 00:10:52,241 Narrator: A large-format camera 166 00:10:52,241 --> 00:10:54,689 Is essentially Great-granddad's camera, 167 00:10:54,689 --> 00:10:57,793 The one with accordion-style Bellows, the big film, 168 00:10:57,793 --> 00:11:00,413 And the curtain Draped around the viewfinder -- 169 00:11:00,413 --> 00:11:04,517 19th century technology With some modern refinements. 170 00:11:04,517 --> 00:11:09,241 For many serious photographers, The basic concept still clicks. 171 00:11:11,448 --> 00:11:14,724 In an age when cameras Are miniaturized and digitized, 172 00:11:14,724 --> 00:11:17,862 The large-format camera Might seem to be a relic. 173 00:11:17,862 --> 00:11:20,551 But for pros, It's a creative tool. 174 00:11:20,551 --> 00:11:23,862 The flexible bellows allow For a wide range of movements 175 00:11:23,862 --> 00:11:26,482 For incredible control Of the image. 176 00:11:26,482 --> 00:11:28,655 Image quality Is another attraction. 177 00:11:28,655 --> 00:11:33,000 This camera uses big sheet film, 4" x 5" and up, 178 00:11:33,000 --> 00:11:34,310 Generating big negatives 179 00:11:34,310 --> 00:11:37,206 That don't need to be enlarged As much during printing, 180 00:11:37,206 --> 00:11:40,586 So the image Has better resolution. 181 00:11:40,586 --> 00:11:41,965 At this factory, 182 00:11:41,965 --> 00:11:44,758 They mold many of the camera's Parts out of plastic. 183 00:11:44,758 --> 00:11:47,275 They inject liquid plastic Into molds, 184 00:11:47,275 --> 00:11:49,551 And the parts quickly solidify. 185 00:11:49,551 --> 00:11:50,724 Other parts are made 186 00:11:50,724 --> 00:11:53,931 Of laser-cut aluminum And stainless steel. 187 00:11:53,931 --> 00:11:56,689 The camera maker Assembles the base first, 188 00:11:56,689 --> 00:12:00,931 Attaching rails that slide Back and forth for focusing. 189 00:12:02,793 --> 00:12:06,034 The next parts allow For swing and shift action -- 190 00:12:06,034 --> 00:12:10,137 Movements that come in handy When composing a shot. 191 00:12:10,137 --> 00:12:13,482 He attaches the camera's Molded, plastic body 192 00:12:13,482 --> 00:12:15,827 To the swing and shift assembly. 193 00:12:18,413 --> 00:12:20,896 Next, he assembles The front part of the camera, 194 00:12:20,896 --> 00:12:23,344 Which holds The lens and shutter. 195 00:12:23,344 --> 00:12:25,241 It has A swing and tilt mechanism 196 00:12:25,241 --> 00:12:28,931 For changing A shot's depth of field. 197 00:12:28,931 --> 00:12:33,034 He slides the lens holder Into place and secures it. 198 00:12:33,034 --> 00:12:37,586 It can be raised and lowered When composing the shot. 199 00:12:37,586 --> 00:12:40,000 He inserts spirit levels Into the slots 200 00:12:40,000 --> 00:12:42,448 In the front and rear sections Of the camera. 201 00:12:42,448 --> 00:12:46,931 These levels will be used To check the angle of the shot. 202 00:12:46,931 --> 00:12:48,965 Moving now To the focusing screen, 203 00:12:48,965 --> 00:12:52,310 It's made of ground acrylic To diffuse light. 204 00:12:52,310 --> 00:12:55,896 He protects the acrylic from Scratches with a glass plate 205 00:12:55,896 --> 00:13:00,275 And secures the assembly With stainless-steel clips. 206 00:13:00,275 --> 00:13:02,379 He snaps The completed focusing screen 207 00:13:02,379 --> 00:13:05,310 To the body of the camera, Where it can be easily switched 208 00:13:05,310 --> 00:13:09,241 From portrait To landscape position. 209 00:13:09,241 --> 00:13:13,724 He tests the focus mechanism And confirms it's operational. 210 00:13:15,482 --> 00:13:19,517 He now folds and glues fabric In an accordion configuration 211 00:13:19,517 --> 00:13:21,103 To create expanding bellows 212 00:13:21,103 --> 00:13:26,034 That will link the front And rear parts of the camera. 213 00:13:26,034 --> 00:13:27,965 He applies double-sided tape 214 00:13:27,965 --> 00:13:30,827 Around the inner lip Of the folded bellows. 215 00:13:35,482 --> 00:13:39,379 He sticks more double-sided tape Onto a plastic frame... 216 00:13:43,137 --> 00:13:47,172 ...And peels away the tape Backing in strategic locations. 217 00:13:50,551 --> 00:13:52,827 He inserts the frame Into the bellows 218 00:13:52,827 --> 00:13:55,344 And aligns it With the taped inner border. 219 00:13:55,344 --> 00:13:58,517 He then completely peels off The taped backing 220 00:13:58,517 --> 00:14:02,103 And presses the frame To the bellows' taped rim. 221 00:14:02,103 --> 00:14:06,931 This frame adds crucial rigidity To the bellows. 222 00:14:06,931 --> 00:14:09,482 Using more double-sided tape And adhesive, 223 00:14:09,482 --> 00:14:11,172 He secures The bellows' accordion 224 00:14:11,172 --> 00:14:13,724 To a larger fabric bag. 225 00:14:15,620 --> 00:14:19,758 Next, he glues plastic flanges To each end of the bellows. 226 00:14:19,758 --> 00:14:22,517 The flanges are connector pieces For attaching the bellows 227 00:14:22,517 --> 00:14:26,793 To the front and rear sections Of the camera. 228 00:14:26,793 --> 00:14:29,310 There are two kinds of bellows. 229 00:14:29,310 --> 00:14:30,793 The one with the bag attached 230 00:14:30,793 --> 00:14:34,034 Is usually used with a lens Of short focal length. 231 00:14:34,034 --> 00:14:37,413 An accordion without the bag has A much longer range of extension 232 00:14:37,413 --> 00:14:41,172 To accommodate a bigger lens. 233 00:14:41,172 --> 00:14:43,517 He now connects the back Of the camera to the front 234 00:14:43,517 --> 00:14:45,275 With the bellows. 235 00:14:45,275 --> 00:14:48,241 They are a flexible link Between the two. 236 00:14:48,241 --> 00:14:51,034 By expanding Or retracting the bellows, 237 00:14:51,034 --> 00:14:52,862 The photographer Can adjust the distance 238 00:14:52,862 --> 00:14:56,758 Between the lens and film To focus the shot. 239 00:14:59,413 --> 00:15:04,068 Finally, he attaches the lens To the front of the camera. 240 00:15:04,068 --> 00:15:06,793 It's now ready for a film test. 241 00:15:06,793 --> 00:15:08,689 He loads the film Into the holder. 242 00:15:08,689 --> 00:15:10,827 Normally, this is done In complete darkness 243 00:15:10,827 --> 00:15:13,000 To prevent exposure of the film. 244 00:15:13,000 --> 00:15:15,965 But he's left the lights on For our camera. 245 00:15:15,965 --> 00:15:19,862 The film slides into the holder Into the camera back. 246 00:15:19,862 --> 00:15:23,482 And while film still rules In large-format photography, 247 00:15:23,482 --> 00:15:25,482 There are Now digital camera backs 248 00:15:25,482 --> 00:15:28,000 For photographers Who want instant results 249 00:15:28,000 --> 00:15:31,551 With traditional focus movements Of the bellows camera. 250 00:15:33,310 --> 00:15:36,137 It's all a matter of focus. 251 00:15:50,000 --> 00:15:53,586 Narrator: man has used gemstones Since ancient times. 252 00:15:53,586 --> 00:15:56,137 Genuine gemstones Come from nature -- 253 00:15:56,137 --> 00:15:59,827 Minerals, rocks, or even Certain organic materials. 254 00:15:59,827 --> 00:16:01,172 Shaped, cut, and polished 255 00:16:01,172 --> 00:16:03,172 To bring out their colors And brilliance, 256 00:16:03,172 --> 00:16:06,344 The rarest ones are classified As precious gems, 257 00:16:06,344 --> 00:16:08,862 The others as semiprecious. 258 00:16:11,172 --> 00:16:14,000 This semiprecious stone Is called blue john. 259 00:16:14,000 --> 00:16:16,103 It's a variety Of the mineral fluorite, 260 00:16:16,103 --> 00:16:18,793 Also known as fluorspar. 261 00:16:18,793 --> 00:16:21,620 While common fluorspar Is cream or white, 262 00:16:21,620 --> 00:16:24,000 Blue john Also has magnificent bands 263 00:16:24,000 --> 00:16:26,655 Of purple, blue, and yellow. 264 00:16:26,655 --> 00:16:29,827 There's only one place in the World where blue john is found, 265 00:16:29,827 --> 00:16:32,482 And that's in the village Of castleton, derbyshire, 266 00:16:32,482 --> 00:16:35,517 In central england. 267 00:16:35,517 --> 00:16:36,965 The stone comes from a cavern 268 00:16:36,965 --> 00:16:42,137 Located some 55 yards deep In a hillside. 269 00:16:42,137 --> 00:16:44,482 The miners don't use explosives, 270 00:16:44,482 --> 00:16:46,862 Because the stone Is quite soft and brittle 271 00:16:46,862 --> 00:16:48,482 In its natural state, 272 00:16:48,482 --> 00:16:52,206 And blasting Would simply shatter it. 273 00:16:52,206 --> 00:16:53,862 Instead, they use drills 274 00:16:53,862 --> 00:16:58,206 To carefully dislodge pieces Of blue john from the rock wall. 275 00:17:07,206 --> 00:17:10,551 They carry the blue john to the Surface to the mine's workshop, 276 00:17:10,551 --> 00:17:14,482 Where stone processors Manually wash off the clay. 277 00:17:14,482 --> 00:17:15,965 The stone is wet 278 00:17:15,965 --> 00:17:20,068 Due to having been underground For some 240 million years, 279 00:17:20,068 --> 00:17:22,586 So they put it into an oven At low heat -- 280 00:17:22,586 --> 00:17:25,172 176 degrees fahrenheit. 281 00:17:25,172 --> 00:17:28,034 When the stone comes out of the Oven a couple of weeks later, 282 00:17:28,034 --> 00:17:31,034 All its moisture has evaporated. 283 00:17:31,034 --> 00:17:33,896 The dried stone, however, Is still brittle, 284 00:17:33,896 --> 00:17:37,000 So they submerge it In a bowl of liquid resin, 285 00:17:37,000 --> 00:17:39,482 Then place the bowl Into a vacuum oven 286 00:17:39,482 --> 00:17:42,275 At 176 degrees fahrenheit. 287 00:17:42,275 --> 00:17:44,724 This process Draws out all the air 288 00:17:44,724 --> 00:17:48,000 And forces the resin Deep into the stone's pores. 289 00:17:48,000 --> 00:17:52,103 The stone then goes into another Oven at 122 degrees fahrenheit 290 00:17:52,103 --> 00:17:54,379 For about 12 hours. 291 00:17:54,379 --> 00:17:55,862 This hardens the resin, 292 00:17:55,862 --> 00:17:59,896 Stabilizing the stone so that it Can be worked without crumbling. 293 00:17:59,896 --> 00:18:03,448 To create large items, Such as goblets and bowls, 294 00:18:03,448 --> 00:18:06,862 The workshop's artisans Turn the stone on a lathe. 295 00:18:06,862 --> 00:18:11,000 To avoid fracturing it, they Must work the blue john slowly 296 00:18:11,000 --> 00:18:13,068 And with diamond-tipped tools. 297 00:18:13,068 --> 00:18:15,827 Diamond, being harder Than all other rocks, 298 00:18:15,827 --> 00:18:18,241 Cuts with less force and stress. 299 00:18:18,241 --> 00:18:20,310 To supply jewelry makers, 300 00:18:20,310 --> 00:18:23,241 The mine workshop Saws stones into slices 301 00:18:23,241 --> 00:18:25,724 Using a diamond-edged saw. 302 00:18:25,724 --> 00:18:27,344 At the jewelry workshop, 303 00:18:27,344 --> 00:18:30,551 A gemologist examines the slices On a light box 304 00:18:30,551 --> 00:18:33,827 To highlight the coloring And any flaws. 305 00:18:33,827 --> 00:18:36,068 This helps determine Which parts of the slice 306 00:18:36,068 --> 00:18:39,551 Will yield The most striking gemstones. 307 00:18:39,551 --> 00:18:42,344 Meanwhile, in another part Of the workshop, 308 00:18:42,344 --> 00:18:44,482 A silversmith crafts The piece of jewelry -- 309 00:18:44,482 --> 00:18:47,000 In this case, A sterling-silver ring 310 00:18:47,000 --> 00:18:51,172 Which will receive The blue john gemstone. 311 00:18:51,172 --> 00:18:54,965 She bends, then solders together The ends of the ring's shank, 312 00:18:54,965 --> 00:18:57,689 The part That encircles the finger. 313 00:18:57,689 --> 00:19:00,275 After grinding The solder seam flat, 314 00:19:00,275 --> 00:19:03,103 She fuses the top of the ring, Called the setting, 315 00:19:03,103 --> 00:19:06,103 Onto the shank. 316 00:19:06,103 --> 00:19:09,965 Then she polishes the ring and Passes it onto the gemologist, 317 00:19:09,965 --> 00:19:11,275 Who takes a slice of blue john 318 00:19:11,275 --> 00:19:14,448 And, with A diamond-edged lapidary saw, 319 00:19:14,448 --> 00:19:16,620 Cuts out the gemstone's shape, 320 00:19:16,620 --> 00:19:20,827 Making it slightly larger Than the setting. 321 00:19:20,827 --> 00:19:24,655 Next, she glues on a backing Cut from mother-of-pearl. 322 00:19:24,655 --> 00:19:26,103 Just like the white light 323 00:19:26,103 --> 00:19:28,862 On which the gemologist Examined the blue john slices, 324 00:19:28,862 --> 00:19:30,620 This mother-of-pearl backing 325 00:19:30,620 --> 00:19:33,068 Highlights the colors In the stone. 326 00:19:36,448 --> 00:19:39,586 Now, using A diamond-grit grinding wheel, 327 00:19:39,586 --> 00:19:42,655 She shapes the stone To perfectly fit in the setting. 328 00:19:52,344 --> 00:19:54,793 She applies glue to the setting 329 00:19:54,793 --> 00:19:57,793 And fits the gemstone Snugly inside. 330 00:20:02,758 --> 00:20:04,413 Once the glue dries, 331 00:20:04,413 --> 00:20:08,482 She uses a diamond-grit sanding Belt to smooth down the edges, 332 00:20:08,482 --> 00:20:12,620 Gradually transforming the rough Oval into a sleek dome. 333 00:20:14,931 --> 00:20:18,000 This gem shape Is known as a cabochon. 334 00:20:23,793 --> 00:20:27,206 Finally, she polishes The entire ring's surface 335 00:20:27,206 --> 00:20:30,827 Until the silver and Richly hued blue john glisten. 336 00:20:32,551 --> 00:20:37,206 Whether it's one of several, The shape funky or traditional, 337 00:20:37,206 --> 00:20:41,827 A gemstone sure makes A piece of jewelry rock. 338 00:20:51,689 --> 00:20:54,068 If you have any comments About the show, 339 00:20:54,068 --> 00:20:56,724 Or if you'd like to suggest Topics for future shows, 340 00:20:56,724 --> 00:20:59,137 Drop us a line at... 27827