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On January 24, 2023 at 5:41:33 AM UTC, Administrator:
Updated description of Time series data on dynamic crack propagation in long propagation saw tests from
This data set includes material and results described in the related research article: Bergfeld, B., van Herwijnen A., Bobillier, G., Rosendahl P., Weißgraeber P., Adam V., Dual, J., and Schweizer, J.: Temporal evolution of crack propagation characteristics in a weak snowpack layer: conditions of crack arrest and sustained propagation, Natural Hazards and Earth System Sciences, 2023. https://doi.org/10.5194/nhess-2022-161 We performed a series of propagation saw test experiments, up to ten meters long, over a period of 10 weeks and analyzed these using digital image correlation techniques. We derived the elastic modulus of the slab, the elastic modulus of the weak layer and the specific fracture energy of the weak layer with a homogeneous and a layered slab model. During crack propagation, we measured crack speed, touchdown distance and the energy dissipation due to compaction and dynamic fracture. Our data set provides unique insight and valuable data to validate models.
to
This data set includes material and results described in the related research article: Bergfeld, B., van Herwijnen A., Bobillier, G., Rosendahl P., Weißgraeber P., Adam V., Dual, J., and Schweizer, J.: Temporal evolution of crack propagation characteristics in a weak snowpack layer: conditions of crack arrest and sustained propagation, Natural Hazards and Earth System Sciences, 2023. https://doi.org/10.5194/nhess-2022-161 We performed a series of propagation saw test experiments, up to ten meters long, over a period of 10 weeks and analyzed these using digital image correlation techniques. We derived the elastic modulus of the slab, the elastic modulus of the weak layer and the specific fracture energy of the weak layer with a homogeneous and a layered slab model. During crack propagation, we measured crack speed, touchdown distance and the energy dissipation due to compaction and dynamic fracture. Our data set provides unique insight and valuable data to validate models.
Changed value of field related_publications to Bergfeld, B., van Herwijnen, A., Bobillier, G., Rosendahl P., Weißgraeber P., Adam V., Dual, J., and Schweizer, J.: Temporal evolution of crack propagation characteristics in a weak snowpack layer: conditions of crack arrest and sustained propagation, Natural Hazards and Earth System Sciences, 2023. https://doi.org/10.5194/nhess-2022-161 in Time series data on dynamic crack propagation in long propagation saw tests
              
    
          
          
        
        
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            2   "author": "[{\"affiliation\": \"WSL Institute for Snow and Avalanche  2   "author": "[{\"affiliation\": \"WSL Institute for Snow and Avalanche 
            3 Research SLF\", \"affiliation_02\": \"\", \"affiliation_03\": \"\",  3 Research SLF\", \"affiliation_02\": \"\", \"affiliation_03\": \"\", 
            4 \"data_credit\": [\"collection\", \"validation\", \"curation\",  4 \"data_credit\": [\"collection\", \"validation\", \"curation\", 
            5 \"software\", \"publication\"], \"email\":  5 \"software\", \"publication\"], \"email\": 
            6 \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\",  6 \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\", 
            7 \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"},  7 \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"}, 
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            12 \"identifier\": \"0000-0001-5637-6486\", \"name\": \"van Herwijnen\"},  12 \"identifier\": \"0000-0001-5637-6486\", \"name\": \"van Herwijnen\"}, 
            13 {\"affiliation\": \"WSL Institute for Snow and Avalanche Research  13 {\"affiliation\": \"WSL Institute for Snow and Avalanche Research 
            14 SLF\", \"affiliation_02\": \"WSL\", \"affiliation_03\": \"ETH\",  14 SLF\", \"affiliation_02\": \"WSL\", \"affiliation_03\": \"ETH\", 
            15 \"data_credit\": \"supervision\", \"email\": \"schweizer@slf.ch\",  15 \"data_credit\": \"supervision\", \"email\": \"schweizer@slf.ch\", 
            16 \"given_name\": \"J\\u00fcrg\", \"identifier\":  16 \"given_name\": \"J\\u00fcrg\", \"identifier\": 
            17 \"0000-0001-5076-2968\", \"name\": \"Schweizer\"}]", 17 \"0000-0001-5076-2968\", \"name\": \"Schweizer\"}]",
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            20   "date": "[{\"date\": \"2019-01-04\", \"date_type\": \"collected\",  20   "date": "[{\"date\": \"2019-01-04\", \"date_type\": \"collected\", 
            21 \"end_date\": \"2019-03-19\"}]", 21 \"end_date\": \"2019-03-19\"}]",
            22   "doi": "10.16904/envidat.365", 22   "doi": "10.16904/envidat.365",
            23   "funding": "[{\"grant_number\": \"Grant/Award: 200021_169424\",  23   "funding": "[{\"grant_number\": \"Grant/Award: 200021_169424\", 
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            31   "license_title": "WSL Data Policy", 31   "license_title": "WSL Data Policy",
            32   "license_url":  32   "license_url": 
            33 ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", 33 ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html",
            34   "maintainer": "{\"affiliation\": \"WSL Institute for Snow and  34   "maintainer": "{\"affiliation\": \"WSL Institute for Snow and 
            35 Avalanche Research SLF\", \"email\": \"bastian.bergfeld@slf.ch\",  35 Avalanche Research SLF\", \"email\": \"bastian.bergfeld@slf.ch\", 
            36 \"given_name\": \"Bastian\", \"identifier\": \"0000-0002-3316-1922\",  36 \"given_name\": \"Bastian\", \"identifier\": \"0000-0002-3316-1922\", 
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            39   "metadata_created": "2023-01-23T09:20:46.332986", 39   "metadata_created": "2023-01-23T09:20:46.332986",
            n 40   "metadata_modified": "2023-01-24T05:40:49.573604", n 40   "metadata_modified": "2023-01-24T05:41:33.522907",
            41   "name":  41   "name": 
            42 ries-data-on-dynamic-crack-propagation-in-long-propagation-saw-tests", 42 ries-data-on-dynamic-crack-propagation-in-long-propagation-saw-tests",
            43   "notes": "This data set includes material and results described in  43   "notes": "This data set includes material and results described in 
            44 the related research article:\r\n\r\nBergfeld, B., van Herwijnen A.,  44 the related research article:\r\n\r\nBergfeld, B., van Herwijnen A., 
            45 Bobillier, G., Rosendahl P., Wei\u00dfgraeber P., Adam V., Dual, J.,  45 Bobillier, G., Rosendahl P., Wei\u00dfgraeber P., Adam V., Dual, J., 
            46 and Schweizer, J.: Temporal evolution of crack propagation  46 and Schweizer, J.: Temporal evolution of crack propagation 
            47 characteristics in a weak snowpack layer: conditions of crack arrest  47 characteristics in a weak snowpack layer: conditions of crack arrest 
            48 and\r\nsustained propagation, Natural Hazards and Earth System  48 and\r\nsustained propagation, Natural Hazards and Earth System 
            n 49 Sciences, 2023. \t\r\nhttps://doi.org/10.5194/nhess-2022-161\r\n\r\nWe  n 49 Sciences, 2023. https://doi.org/10.5194/nhess-2022-161\r\n\r\nWe 
            50 performed a series of propagation saw test experiments, up to ten  50 performed a series of propagation saw test experiments, up to ten 
            51 meters long, over a period of 10 weeks and analyzed these using  51 meters long, over a period of 10 weeks and analyzed these using 
            52 digital image correlation techniques. We derived the elastic modulus  52 digital image correlation techniques. We derived the elastic modulus 
            53 of the slab, the elastic modulus of the weak layer and the specific  53 of the slab, the elastic modulus of the weak layer and the specific 
            54 fracture energy of the weak layer with a homogeneous and a layered  54 fracture energy of the weak layer with a homogeneous and a layered 
            55 slab model. During crack propagation, we measured crack speed,  55 slab model. During crack propagation, we measured crack speed, 
            56 touchdown distance and the energy dissipation due to compaction and  56 touchdown distance and the energy dissipation due to compaction and 
            57 dynamic fracture. Our data set provides unique insight and valuable  57 dynamic fracture. Our data set provides unique insight and valuable 
            58 data to validate models.", 58 data to validate models.",
            59   "num_resources": 4, 59   "num_resources": 4,
            60   "num_tags": 6, 60   "num_tags": 6,
            61   "organization": { 61   "organization": {
            62     "approval_status": "approved", 62     "approval_status": "approved",
            63     "created": "2019-09-27T12:40:13.473824", 63     "created": "2019-09-27T12:40:13.473824",
            64     "description": "Snow avalanches \u2013 a type of fast-moving mass  64     "description": "Snow avalanches \u2013 a type of fast-moving mass 
            65 movement \u2013 occur in snow covered mountain areas throughout the  65 movement \u2013 occur in snow covered mountain areas throughout the 
            66 world and may cause property damage and loss of life as they interfere  66 world and may cause property damage and loss of life as they interfere 
            67 with human activities. Most avalanches release from terrain steeper  67 with human activities. Most avalanches release from terrain steeper 
            68 than about 30\u00b0 during or soon after snow storms, or are triggered  68 than about 30\u00b0 during or soon after snow storms, or are triggered 
            69 by snow loading due to wind, or by a temperature change. Snow slab  69 by snow loading due to wind, or by a temperature change. Snow slab 
            70 avalanches can also be triggered artificially by, for example, people  70 avalanches can also be triggered artificially by, for example, people 
            71 (usually unintentionally) or intentionally by explosives used as part  71 (usually unintentionally) or intentionally by explosives used as part 
            72 of avalanche control programs. Today, most avalanche fatalities are  72 of avalanche control programs. Today, most avalanche fatalities are 
            73 recreationists. Independent of the triggering mode, the snowpack  73 recreationists. Independent of the triggering mode, the snowpack 
            74 layering is decisive for the instability of the snowpack which  74 layering is decisive for the instability of the snowpack which 
            75 consists of layers with varying properties. The complex microstructure  75 consists of layers with varying properties. The complex microstructure 
            76 of snow and spatial variations in snow layer properties across the  76 of snow and spatial variations in snow layer properties across the 
            77 terrain limit the predictability of snow avalanches. Even today, it is  77 terrain limit the predictability of snow avalanches. Even today, it is 
            78 not possible to predict the exact location, time and extent of an  78 not possible to predict the exact location, time and extent of an 
            79 avalanche event. Improving avalanche prediction requires a better  79 avalanche event. Improving avalanche prediction requires a better 
            80 understanding of the underlying processes. ", 80 understanding of the underlying processes. ",
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            91   "publication": "{\"publication_year\": \"2023\", \"publisher\":  91   "publication": "{\"publication_year\": \"2023\", \"publisher\": 
            92 \"EnviDat\"}", 92 \"EnviDat\"}",
            93   "publication_state": "published", 93   "publication_state": "published",
            94   "related_datasets": "", 94   "related_datasets": "",
            95   "related_publications": "Bergfeld, B., van Herwijnen, A., Bobillier,  95   "related_publications": "Bergfeld, B., van Herwijnen, A., Bobillier, 
            96 G., Rosendahl P., Wei\u00dfgraeber P., Adam V., Dual, J., and  96 G., Rosendahl P., Wei\u00dfgraeber P., Adam V., Dual, J., and 
            97 Schweizer, J.: Temporal evolution of crack propagation characteristics  97 Schweizer, J.: Temporal evolution of crack propagation characteristics 
            98 in a weak snowpack layer: conditions of crack arrest and\r\nsustained  98 in a weak snowpack layer: conditions of crack arrest and\r\nsustained 
            99 propagation, Natural Hazards and Earth System Sciences, 2023.  99 propagation, Natural Hazards and Earth System Sciences, 2023. 
            t 100 \t\r\nhttps://doi.org/10.5194/nhess-2022-161", t 100 https://doi.org/10.5194/nhess-2022-161",
            101   "relationships_as_object": [], 101   "relationships_as_object": [],
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            109       "created": "2023-01-23T09:28:38.855303", 109       "created": "2023-01-23T09:28:38.855303",
            110       "description": "Snowpack data includes the elastic modulus  110       "description": "Snowpack data includes the elastic modulus 
            111 (stiffness properties) of the slab, the elastic modulus of the weak  111 (stiffness properties) of the slab, the elastic modulus of the weak 
            112 layer, and the specific fracture energy of the weak layer determined  112 layer, and the specific fracture energy of the weak layer determined 
            113 with a homogeneous and a layered slab model. During crack propagation,  113 with a homogeneous and a layered slab model. During crack propagation, 
            114 we measured the crack speed, touchdown distance, crack arrest length  114 we measured the crack speed, touchdown distance, crack arrest length 
            115 and energy dissipation due to compaction and dynamic fracture.", 115 and energy dissipation due to compaction and dynamic fracture.",
            116       "doi": "", 116       "doi": "",
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            142       "created": "2023-01-23T09:45:55.282510", 142       "created": "2023-01-23T09:45:55.282510",
            143       "description": "The videos show the cracking process in the  143       "description": "The videos show the cracking process in the 
            144 Propagation Saw Tests (flat field). The upper panel shows strain on  144 Propagation Saw Tests (flat field). The upper panel shows strain on 
            145 top of the recorded movie frames. The second row shows vertical (w,  145 top of the recorded movie frames. The second row shows vertical (w, 
            146 blue line) and horizontal (u, orange line) displacement fields. The  146 blue line) and horizontal (u, orange line) displacement fields. The 
            147 third and fourth row show the first and second time derivatives,  147 third and fourth row show the first and second time derivatives, 
            148 namely the velocity and acceleration field.\r\n", 148 namely the velocity and acceleration field.\r\n",
            149       "doi": "", 149       "doi": "",
            150       "format": ".zip", 150       "format": ".zip",
            151       "hash": "", 151       "hash": "",
            152       "id": "1081573c-53f5-4f3c-8630-b2f944320e73", 152       "id": "1081573c-53f5-4f3c-8630-b2f944320e73",
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            156       "mimetype_inner": null, 156       "mimetype_inner": null,
            157       "name": " Videos of crack propagation", 157       "name": " Videos of crack propagation",
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            175       "created": "2023-01-23T10:07:39.415286", 175       "created": "2023-01-23T10:07:39.415286",
            176       "description": "Index of self-sustained crack propagation SSP  176       "description": "Index of self-sustained crack propagation SSP 
            177 (ssp_measured.xlsx) with time. The self-sustained crack propagation  177 (ssp_measured.xlsx) with time. The self-sustained crack propagation 
            178 index SSP was also modelled for simulated snow stratigraphy  178 index SSP was also modelled for simulated snow stratigraphy 
            179 (ssp_modelled.xlsx) using crack speed and critical cut length  179 (ssp_modelled.xlsx) using crack speed and critical cut length 
            180 parameterizations from Heierli (2005) and Richter et al. (2019),  180 parameterizations from Heierli (2005) and Richter et al. (2019), 
            181 respectively.", 181 respectively.",
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            209       "description": "The snow cover model SNOWPACK (version 3.60) was  209       "description": "The snow cover model SNOWPACK (version 3.60) was 
            210 used to simulate the evolving snow stratigraphy at our field site. The  210 used to simulate the evolving snow stratigraphy at our field site. The 
            211 model was driven with data from an automatic weather station which was  211 model was driven with data from an automatic weather station which was 
            212 located 100m next to the field site (FLS_bunker_snowpack.smet). The  212 located 100m next to the field site (FLS_bunker_snowpack.smet). The 
            213 SNOWPACK initiation file (FLS_bunker_snowpack.ini) contains the  213 SNOWPACK initiation file (FLS_bunker_snowpack.ini) contains the 
            214 selected model parameters that result in the modeled snow stratigraphy  214 selected model parameters that result in the modeled snow stratigraphy 
            215 (FLS_bunker_snowpack.pro).", 215 (FLS_bunker_snowpack.pro).",
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            245   "tags": [ 245   "tags": [
            246     { 246     {
            247       "display_name": "CRACK PROPAGATION", 247       "display_name": "CRACK PROPAGATION",
            248       "id": "cca7ca78-fafe-4329-af76-45610a10396b", 248       "id": "cca7ca78-fafe-4329-af76-45610a10396b",
            249       "name": "CRACK PROPAGATION", 249       "name": "CRACK PROPAGATION",
            250       "state": "active", 250       "state": "active",
            251       "vocabulary_id": null 251       "vocabulary_id": null
            252     }, 252     },
            253     { 253     {
            254       "display_name": "DYNAMIC CRACK PROPAGATION", 254       "display_name": "DYNAMIC CRACK PROPAGATION",
            255       "id": "407cf4d2-8acb-4745-a4a4-595dae6c9ecc", 255       "id": "407cf4d2-8acb-4745-a4a4-595dae6c9ecc",
            256       "name": "DYNAMIC CRACK PROPAGATION", 256       "name": "DYNAMIC CRACK PROPAGATION",
            257       "state": "active", 257       "state": "active",
            258       "vocabulary_id": null 258       "vocabulary_id": null
            259     }, 259     },
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            265       "vocabulary_id": null 265       "vocabulary_id": null
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            273     }, 273     },
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            276       "id": "6083a08c-fd24-4e5a-bb20-559021b89c92", 276       "id": "6083a08c-fd24-4e5a-bb20-559021b89c92",
            277       "name": "SNOW AVALANCHE", 277       "name": "SNOW AVALANCHE",
            278       "state": "active", 278       "state": "active",
            279       "vocabulary_id": null 279       "vocabulary_id": null
            280     }, 280     },
            281     { 281     {
            282       "display_name": "SNOW MECHANICS", 282       "display_name": "SNOW MECHANICS",
            283       "id": "31bab9c5-b32e-452d-bce1-f7500696beab", 283       "id": "31bab9c5-b32e-452d-bce1-f7500696beab",
            284       "name": "SNOW MECHANICS", 284       "name": "SNOW MECHANICS",
            285       "state": "active", 285       "state": "active",
            286       "vocabulary_id": null 286       "vocabulary_id": null
            287     } 287     }
            288   ], 288   ],
            289   "title": "Time series data on dynamic crack propagation in long  289   "title": "Time series data on dynamic crack propagation in long 
            290 propagation saw tests", 290 propagation saw tests",
            291   "type": "dataset", 291   "type": "dataset",
            292   "url": null, 292   "url": null,
            293   "version": "1.0" 293   "version": "1.0"
            294 } 294 }